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Unit/Standard Number |
CIS OBJECTIVES: Computer Programming, Programmers - General(Please note: Unit/standard numbers are algorithmically aligned to established standards within the computer science discipline. All student tasks are temporarily emphasized within every objective listed below.) |
| 10 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to define health and safety regulations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 11 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to identify and apply OSHA and other health and safety regulations that apply to specific tasks and jobs in the occupational area with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 12 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to identify and apply EPA and other environmental protection regulations that apply to specific tasks and jobs in the occupational area with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 13 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to identify and apply Right-To-Know (Hazard Communication Policy) and other communicative regulations that apply to specific tasks and jobs in the occupational area with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 14 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to explain procedures for documenting and reporting hazards to appropriate authorities with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 15 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to list penalties for non-compliance with appropriate health and safety regulations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 16 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to identify contact information for appropriate health and safety agencies and resources with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 17 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to demonstrate health and safety practices with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 18 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to read chemical, product, and equipment labels to determine appropriate health and safety considerations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 19 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to identify, describe and demonstrate personal, classroom and laboratory safety practices and procedures with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 20 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to illustrate appropriate safe body mechanics, including proper lifting techniques and ergonomics with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 21 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to locate emergency equipment in your lab and classroom, including (where appropriate) eyewash stations, shower facilities, sinks, fire extinguishers, fire blankets, telephone, master power switches, and emergency exits with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 22 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to demonstrate the safe use, storage, and maintenance of every piece of equipment in the lab and classroom with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 23 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to describe safety practices and procedures to be followed when working with and around electricity with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 24 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to properly handle, store, dispose of, and recycle hazardous, flammable, and combustible materials with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 25 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to demonstrate proper workspace cleaning procedures with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 26 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to demonstrate responses to situations that threaten health and safety with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 27 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to illustrate First Aid procedures for potential injuries and other health concerns in the occupational area with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 28 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to describe the importance of emergency preparedness and an emergency action plan with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 29 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to illustrate procedures used to handle emergency situations and accidents, including identification, reporting, response, evacuation plans, and follow-up procedures with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 30 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to identify practices used to avoid accidents with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 31 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to identify and describe fire protection, precautions and response procedures with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 32 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to discuss the role of the individual and the company/organization in ensuring workplace safety with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 33 | DRAFT: Given an introduction to general safety and health information sources, the student will be able to discuss ways to identify and prevent workplace/school violence with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
100 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify and define acceptable safety protocols with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 101 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to follow ergonomic practices with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 102 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to organize and maintain a computer workstation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 103 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe and demonstrate ways to dissipate electronic discharge with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 104 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to discuss risks to computer if static electricity is present with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 105 | DRAFT: Given an introduction to Computer Science, the student will be able to relate to safety concerns within the Computer Information Systems (or CIS) discipline with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 110 | DRAFT: Given a student handbook, the student will be able to identify school rules and attendance requirements with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 111 | DRAFT: Given a school map and evacuation procedures, the student will be able to recognize school layout/resources and evacuation procedures with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 112 | DRAFT: Given a list of course expectations, the student will be able to identify course rules and regulations with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 113 | DRAFT: Given a student handbook, the student will be able to identify class dress code and the essence of good grooming with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 114 | DRAFT: Given a student handbook, the student will be able to recognize the grading policy with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 115 | DRAFT: Given a district's Acceptable Use Policy (AUP), the student will be able to recognize behavior that is suitable in a school environment with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
200 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to relate to office procedures and customer service communications with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 201 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to demonstrate proper electronic and telephone communications etiquette with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 202 | DRAFT: Given a digital document(s) with syntax and semantic errors, the student will be able to identify, proofread, and correct grammar errors in all documents with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 203 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to demonstrate proper interpersonal communication skills with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 204 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to develop time management skills by setting priorities and perform multiple tasks with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 205 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to write business correspondence and technical documents with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 206 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to maintain digital records, reports, or files with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 207 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe the advantages of customer service in building a loyal customer base with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 208 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe how data is collected to improve customer service with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 209 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to demonstrate the use of effective face-to-face communication with customers with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 210 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify the ways a customer service representative can develop a rapport with customers with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 211 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the importance of putting extra effort into satisfying customers with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
300 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to recognize business law and ethics with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 301 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to learn business law and business ethics vocabulary with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 302 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain how advances in computer technology impact such areas as intellectual property, contract law, criminal law, tort law, and international law with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 303 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain crimes often associated with business and organizations (e.g., embezzlement, extortion, computer crimes) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 304 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe familiar business law cases and know how they relate to business practices with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 305 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to compare types of contracts including Cyber-Space and related accountability with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 306 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify improper use of business technology and property (e.g., computers, personal digital assistants, cell phones, telephones) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 307 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe rights and responsibilities when conducting business, traveling, or living abroad with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 308 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify legal safeguards to protect your right of computer privacy with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 309 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify Cyber-Law as an emerging trend in the 21st century with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
400 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to examine computer fundamentals with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 401 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify terminology and the use of the World Wide Web with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 402 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to research and evaluate new technologies with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 403 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to use search engines to locate resources with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 404 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify components of the system unit including input/output devices with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 405 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to navigate and manage operating systems and utility programs with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 406 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to utilize communication devices and network with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 407 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to employ computer security, ethics, and privacy with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
500 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to employ the fundamentals of productivity software (depreciated) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 501 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit a document using word processing software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 502 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit formats, footnotes and paragraphs with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 503 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit tables and charts with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 504 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to generate form letters, mailing labels, and envelopes with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 505 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to perform desktop publishing using word processing software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 506 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit a document using spreadsheet software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 507 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit graphs and associated data using spreadsheet software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 508 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit data in multiple worksheets using spreadsheet software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 509 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit macros with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 510 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit and export lists using spreadsheet software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 511 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to perform business mathematical statistics and built in functions using spreadsheet software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 512 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to send and receive messages using communications software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 513 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit a slide presentation using multimedia software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 514 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit text, graphics and tables to a presentation using multimedia software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
600 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to use productivity software with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 601 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create a document using work processing software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 602 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create formats, footnotes, and paragraphs with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 603 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to edit tables and charts with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 604 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create a document using a spreadsheet software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 605 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create graphs and associated data using spreadsheet software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 606 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create data in multiple worksheets using spreadsheet software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 607 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create macros using Visual Basic for Applications with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 608 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create lists using spreadsheet software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 609 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create a slide presentation using multimedia software with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 610 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to add text, graphics, and tables to a presentation using multimedia software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 611 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to produce a customized slide presentation using all available tools with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
700 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to practice database administration with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 701 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to demonstrate a working knowledge of database design fundamentals and terminology with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 702 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to enter, update, and maintain information within database tables with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 703 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create reports, forms, and combo-boxes with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 704 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to import and export data into other applications with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 705 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe data management tools with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 706 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to define database management theories with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 707 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create and design a normalized relational database with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 708 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create entity-relationship diagram with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 709 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to build and maintain data tables using commands with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 710 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create data queries using simple and complex structured query language with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 711 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to aggregate and sort data in queries with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 712 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to include calculated and built-in functions and procedures in queries with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 713 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to implement security and back-up & recovery with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 714 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to create and maintain views with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
800 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to analyze the fundamentals of programming and system development with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 801 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe a working knowledge of the System Development Life-Cycle (System Investigation/Project Proposal, Analysis, Design, Code/Test, Implementation and Maintenance) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 802 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to differentiate programming fundamentals such as system processing, integration, generations of languages, binary code, object code, and source code with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 803 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to declare and manipulate appropriate data types variables, such as arrays and string data with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 804 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to utilize program control structures (for example: decisions, loops, functions/subroutines, arithmetic and logical operations, etc.) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 805 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to scientifically discuss program analysis and design with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
900 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to demonstrate a variety of programming systems with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 901 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create working graphical user interfaces (GUI) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 902 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create, test, and debug successful computer programs with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 903 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to create clear and thorough program documentation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 905 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to compare and contrast an IDE with a text editor with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1000 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to demonstrate knowledge of computer maintenance and troubleshooting with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1001 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems discipline, the student will be able to demonstrate the troubleshooting theory with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1002 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to analyze common hardware processing, problems, and performance issues with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1003 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to analyze common software processing, problems, and performance issues with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1004 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science discipline, the student will be able to integrate common preventive maintenance techniques with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1005 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to analyze basic network processing, problems, and performance issues with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1100 | DRAFT: Given an introduction to computer science, the student will be able to examine and research the foundations of Computer Information Systems (or CIS) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1101 | DRAFT: Given a student handbook, the student will be able to review school rules, Acceptable Use Policy (AUP), and attendance requirements with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1102 | DRAFT: Given a student handbook, the student will be able to review class dress code and the essence of good grooming with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1103 | DRAFT: Given a student handbook, the student will be able to recognize the grading policy with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1104 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to define the vocabulary terms 'data' and 'information' with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1105 | DRAFT: Given a lecture/demonstration on the relationship of computer science to other disciplines, the student will be able to define the vocabulary term 'computational thinking' outside of the computer science discipline with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards . |
| 1106 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering discipline, the student will be able to compare and contrast the following disciplines: Computer Science, Software Engineering, Information Systems, and Information Technology (both literacy and fluency) with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1107 | DRAFT: Given a course syllabus, the student will be able to identify general course objectives with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1108 | DRAFT: Given a role-play exercise on conflict management in the workplace, the student will be able to demonstrate effective interpersonal conflict management skills with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 1109 | DRAFT: Given a classroom discussion on computer science fundamentals and expectations of professionals in the computer science field, the student will be able to differentiate between information technology roles and information system roles with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1110 | DRAFT: Given a description of an IS discipline and related professional responsibilities, the student will be able to define professional roles within the field of Computer Information Systems (or CIS) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1111 | DRAFT: Given a case scenario in the information systems discipline, the student will be able to demonstrate a broad business and a real world perspective with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1112 | DRAFT: Given a group exercise, the student will be able to promote successful performance among peers with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1113 | DRAFT: Given a paper pseudo-business model, the student will be able to automate business operations without downsizing staff or production with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1114 | DRAFT: Given a common business case scenario, the student will be able to properly align digital information systems with an organization's strategic plan with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1115 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to independently demonstrate strong analytical and critical thinking skills with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 1116 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use system concepts for understanding and framing problems with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 1117 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to practice solving problems before actually implementing a solution with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1118 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to apply both traditional and new concepts and skills with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 1119 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to understand that a system consists of people, data, procedures, software, & hardware (by degree) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1120 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to exhibit strong ethical principles with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1121 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to employ good interpersonal communication & team skills with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1122 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to adopt a professional code of conduct with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1123 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to collaborate to successful reinforce individual efforts with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1124 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to employ effective listening skills with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1125 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate persuasiveness through writing & speaking with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1126 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to show awareness of opportunities for ongoing education with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1127 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to maintain a positive work ethic and attitude with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1128 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to demonstrate attitude for success with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1129 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to display persistence, curiosity, creativity, risk taking, & a tolerance of these abilities in others with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 1130 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to design and implement information technology solutions that enhance organizational performance with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1131 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to properly model organizational processes with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1132 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to implement and manage technical processes with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1133 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to apply techniques for acquiring, converting, transmitting, & storing data with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1134 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to focus upon the application of information technology in helping individuals, groups, & organizations achieve their goals with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1135 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to provide users with technical support for computer problems with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1136 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to install hardware & software solutions with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1137 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to troubleshoot hardware & software problems with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1138 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to simulate a solution's accuracy then re-evaluate with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1139 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to count in base 2, 8, or 16 numbering systems with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1140 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to design basic finite state machines with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1141 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to responsibly use software in the lab with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1142 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate the ethical use of computer technology with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1143 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to explore problems: solving heuristically & strategically with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 1144 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to recognize computationally hard problems (NP-C) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 1145 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify unsolvable problems (Does P = NP?) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
1200 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to develop an individual career plan and research project with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1201 | DRAFT: Given a classified job advertisement section from a local news agency, the student will be able to investigate career options with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1202 | DRAFT: Given a basic document template framed upon a student's interest, aptitudes, and research, the student will be able to develop career goals with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1203 | DRAFT: Given an online career account/survey from the Department of Education, the student will be able to plan and modify goals on an annual basis with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1204 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to manage personal and career goals with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1205 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe factors that contribute to job satisfaction and success with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1220 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to prepare for employment with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1221 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to develop a resume with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1222 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to complete a job application process with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1223 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate interviewing skills with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1230 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to participate in work-based learning experiences with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1231 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use technology appropriate for the job with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1232 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate positive work behaviors with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1233 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate positive interpersonal behaviors with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1234 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate safe and healthy work behaviors with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1235 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to adapt to changes in the workplace with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1240 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate oral communications with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1241 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to conduct formal and informal research to collect appropriate topical information with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1242 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use questioning techniques to obtain needed information from audience with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1243 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to interpret oral and nonverbal communications of audience with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1244 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate active listening during communications with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1245 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate appropriate technologies for a formal presentation with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1246 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to prepare and deliver presentations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1247 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to deliver presentation incorporating both appropriate verbal and nonverbal communication techniques with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1248 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to communicate using equitable and culturally sensitive language for a diverse audience with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1250 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate written communications with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1251 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to conduct formal research to collect appropriate information with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1252 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to organize information and develop an outline with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1253 | DRAFT: Given a written case scenario from the workplace, the student will be able to write an appropriate business communication with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1254 | DRAFT: Given an appropriate technology and information system(s), the student will be able to prepare and proof a draft report with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1255 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to utilize electronic format for written and presentation communications with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1300 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate the role of the information technology industry in the economy with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1301 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate the role of information technology on local and international economies with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1302 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to compare/contrast the advantages/disadvantages of working as an independent consultant with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1305 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to analyze the relationship of customer service and customer satisfaction on the success of a business with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1400 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate business and financial management practices for an independent consultant with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1401 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to research and identify costs associated with supplying services in the Information Systems field with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1402 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to interpret financial information for decision making and planning with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1405 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to monitor and adjust business operation based on financial performance with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1500 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate leadership styles appropriate for the workplace with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1501 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to determine the roles and responsibilities that leaders and members bring to an organization with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1502 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to compare/contrast leadership and management styles with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1503 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe how cultural/ethnic differences affect leadership styles within a group with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1505 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe how cultural/ethnic differences affect interpersonal interactions/communications within a group with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1600 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to participate in leadership activities such as those supported by career and technical student organizations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1601 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to determine the roles and responsibilities that leaders and members bring to a student organization with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1602 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate characteristics of an effective team player with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1603 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate characteristics of effective teams with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1604 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to practice techniques to involve each member of the team with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1605 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate team-work with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1606 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to practice effective meeting management with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1607 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to develop and implement a personal and professional improvement plan with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1608 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate business etiquette with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1609 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to practice decision-making process with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1700 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate positive business and work ethics with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1701 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to distinguish between personal values and goals with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1702 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate how values and goals are displayed as a work ethic with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1703 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain how initiatives and the willingness to learn new information impact interpersonal relationships in the workplace with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1704 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate dependable punctuality and to adhere to a work schedule and deadlines with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1705 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to express feelings and ideas in an appropriate manner for the workplace with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1706 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate appropriate manners for accepting/giving feedback and evaluation in employer/employee interactions with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1711 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to convey the rights/responsibilities electronic communications usage to the end users with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1712 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to comply with license agreements and copyright laws with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1713 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to compare the rights of an organization with the rights of users of electronic communications with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1800 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate the comprehension of basic computer mathematics with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1801 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the function of general mathematics as it relates to computer hardware with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1805 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to perform binary, octal, decimal, and hexadecimal number conversions to solve problems with hardware configuration with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
1900 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe the development/evolution of the computer with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1901 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe a computer, it's components and their functions with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1902 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the historical evolution of the computer with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 1905 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain how the development of computers has impacted modern life with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
2100 | DRAFT: Given an introduction to web programming, the student will be able to develop a basic website with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2101 | DRAFT: Given a computer and a common web browser, the student will be able to identify various browser buttons and drop-down menus with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2102 | DRAFT: Given a computer and a common web browser with a connection to the Internet, the student will be able to define basic search engine fundamentals with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2103 | DRAFT: Given a computer and a common web browser with a connection to the Internet, the student will be able to refine basic search parameters with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2104 | DRAFT: Given a computer and a common web browser with a connection to the Internet, the student will be able to evaluate basic web sites with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2105 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify security on the Internet with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2106 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to list fundamental human-computer interaction (HCI) concepts with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2107 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify elements of user-friendly web sites with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2108 | DRAFT: Given a computer, a common text editor, and a web browser, the student will be able to create an essential web script framework with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2109 | DRAFT: Given a large sheet of paper and color markers, the student will be able to design a user-friendly web site with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2110 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create a user-friendly web page(s) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2111 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify elements of user-friendly software with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2112 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to design a user-interface for a program with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2113 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to document techniques implemented on a web site with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2114 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate correct use of terminology in web development with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2115 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to verbally explain the characteristics of a good web site with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2116 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to list the characteristics of a good web site with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2117 | DRAFT: Given a common web browser and a random online web page(s), the student will be able to reveal the HTML code page source with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2118 | DRAFT: Given a common web browser and a random online web page(s), the student will be able to identify the document type definition (or DTD) in use with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2119 | DRAFT: Given a standard DTD as transitional or strict, the student will be able to define all attributes and elements as presented with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2120 | DRAFT: Given a random web page and corresponding HTML code source, the student will be able to underline the HTML skeleton with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2121 | DRAFT: Given a several valid web page code sources, the student will be able to examine the relationship of commands within HTML and XHTML as presented with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2122 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use HTML and XHTML tags with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2123 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to read styles and markup within HTML with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2124 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create a web page from a storyboard design with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2125 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to publish a web site locally with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2126 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate and proof a web site with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2127 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to research user interactivity with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2128 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use various web development tools with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2129 | DRAFT: Given a free online HTML validation service from W3C, the student will be able to correct all syntax errors within the related code using a strict evaluation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2130 | DRAFT: Given a free online XHTML validation service from W3C, the student will be able to correct all syntax errors within the related code using a strict evaluation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2131 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to develop HTML/CSS web pages/sites with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2132 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate web sites for functionality with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2133 | DRAFT: Given a free online CSS validation service from W3C, the student will be able to correct all syntax errors within the related code using a strict evaluation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2134 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create background watermarks for readability with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2135 | DRAFT: Given an online HTML form, the student will be able to criticize the graphical user interface with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2136 | DRAFT: Given an online HTML form, the student will be able to describe and discuss the form re-entry method used with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2137 | DRAFT: Given an online HTML form and corresponding graphical user interface(s), the student will be able to analyze various data input filters implemented with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2138 | DRAFT: Given a form re-entry scenario and working code examples, the student will be able to recognize effective user interfaces for data collection with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2139 | DRAFT: Given a basic PHP/HTML form example, the student will be able to write a program that validates and preserves the integrity of user input/data with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2140 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate and rank the effectiveness of a web site with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2141 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to develop PHP/MySQL templates for web sites with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2142 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to improve upon all web-code examples presented with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2143 | DRAFT: Given a sample of a PHP/MySQL program and a brief project description, the student will be able to design a functional web site application with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2144 | DRAFT: Given an introduction to PHP/MySQL and several online sources, the student will be able to write a program supporting a research project with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2145 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to successfully complete a major web development research project with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2200 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to determine and manage issues that affect internet site functionality with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2201 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate performance issues including bandwidth, Internet connection types, pages taking to long to load, and resolution of graphic files with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2202 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify and explain security issues including authentication, permissions, and data encryption with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2203 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe and contrast various types of caching with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2210 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to utilize different types of search indexes with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2211 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to index a site for a search with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2212 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use Internet and Intranet search engines with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2213 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to compare and contrast differences between search engines and directories with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2214 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain Meta search engines with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2215 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain Spider search engines with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2220 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to outline the infrastructure needed to support an internet client with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2221 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate knowledge of client operating systems and web server platforms with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2222 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the importance of operating systems and web server platforms with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2223 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to define the significance of network connections, web browsers, email clients, hardware platforms, DHCP, and client software configurations with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2230 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to configure web browsers and other Internet/Intranet clients with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2231 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to configure web browsers, secure FTP clients, SSH/Telnet clients, Email client, and universal clients with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2232 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify and explain the most appropriate time to use secure FTP clients, SSH/Telnet clients, Email client, and universal clients with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2233 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to illustrate the correct use of the basic commands for secure FTP clients, SSH/Telnet clients, Email client, and universal clients with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2240 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to administer Internet/Intranet sites with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2241 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to reset passwords with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2242 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to configure user permissions with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2243 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to post content to a server with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2300 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to differentiate between popular client-side and server side programming languages and terms with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2301 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain when to use languages such as Java, JavaScript, XML, ASP, XSL, DTD, JSP, Perl, PHP with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2302 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to indicate when languages are executed with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2303 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain API, CGI script, SQL, client-side scripting, and server-side scripting with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2400 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create HTML pages using a standard text editor with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2401 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to originate the code for simple tables, headings, and forms with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2402 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the importance of page compatibility between browsers with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2403 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the importance of creating cross-browser coding in HTML tier models with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2404 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create Cascading Style Sheets (CSS), Extensible Stylesheet Language, DHTML, XHTML code with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2405 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate knowledge of page layout principles in design of pages with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2406 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to code Meta-Tags properly with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2500 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify when to use various multimedia extensions, plug-ins, and multimedia formats with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2501 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate the appropriate use of Quick Time, Shockwave, Real-Player, and Windows Media Player in adding multimedia to a website with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2502 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate when to use image and file formats such as GIF, JPEG, PNG, PDF, TIFF, BMP, MOV, and AVI with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2600 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify and explain common formats used to deliver content and popular tools to connect a web server to a database with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2601 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the purpose and correct use of file formats such as XML and WML with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2602 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the purpose and correct use of tools such as PHP, Perl, ASP, ADBC and JDBC (considering ODBC) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2700 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to outline the core components of the Internet infrastructure with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2701 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify problems with Internet connectivity from source to destination for various types of servers such as Email, web, secure FTP, news, proxy, caching or DNS with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2702 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe the use of Internet domain names and DNS with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2703 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe the capabilities of popular remote access protocols with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2704 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe how various protocols or services apply to their function of their corresponding server with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2705 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify when to use various diagnostic tools such as Ping or IP-Configuration software for resolving Internet problems with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2706 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create a logic diagram and explain each of the Internet components from the client to the server with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2800 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to assess and describe various Internet security concepts with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2801 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain concepts such as access control, authentication, encryption, secure socket layers, access security tools, auditing, and secure electronic transactions with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2802 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to discriminate between normal and suspicious network activities such as multiple log-in attempts with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2803 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to choose between various methods for intrusion detection with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2804 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe the proper instances to use anti-virus software for server, client, and network protection with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2805 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe how firewalls are used to protect private networks with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2807 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to interpret various authentication/encryption technologies with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
2900 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify and describe various e-business and e-commerce terms and concepts with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2901 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to compare and contrast Private Network, Intranet, Extranet, and Internet with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2902 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to compose a formal explanation of the current types of e-business models currently being applied with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2903 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify key factors, such as geographic location and public relations, relating to strategic marketing considerations as they relate to launching an e-business initiative with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 2904 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify key factors, such as intellectual property rights, privacy and jurisdiction, relating to legal and regulatory considerations when planning e-business solutions with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3100 | FINAL DRAFT: Given an introduction to computer programming and several code examples, the student will be able to create, modify, compile, and execute computer algorithms from an open source with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3101 | FINAL DRAFT: Given an introduction and a fundamental Hello-World algorithm, the student will be able to recall every line of code within the source algorithm with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3102 | FINAL DRAFT: Given an introduction and a functional algorithm, the student will be able to label and define major sections of an algorithm with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3103 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to underline or highlight built-in commands/functions with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3104 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to underline or highlight literals with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3105 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to underline or highlight primitive variables with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3106 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to underline or highlight data structures when defined with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3107 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to underline or highlight value parameters with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3108 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to underline or highlight reference parameters with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3109 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to underline or highlight function prototypes with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3110 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with grammar errors, the student will be able to locate all syntax errors with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3111 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with known semantic errors, the student will be able to discuss various side-effects that may occur with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3112 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to restate major sections of an algorithm with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3113 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to explain built-in commands/functions with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3114 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to describe literals with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3115 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to recognize primitive variables with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3116 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to review data structures when defined with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3117 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to identify value parameters with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3118 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to identify reference parameters with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3119 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to describe function prototypes with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3120 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with grammar errors, the student will be able to practice correcting syntax errors with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3121 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with known semantic errors, the student will be able to interpret various side-effects with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3122 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to apply major sections of an algorithm with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3123 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to use built-in commands/functions with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3124 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to employ literals with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3125 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to assign primitive variables a literal value with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3126 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to illustrate data structures as defined with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3127 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to use value parameters with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3128 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to use reference parameters with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3129 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to apply function prototypes with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3130 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with grammar errors, the student will be able to correct all syntax errors with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3131 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with known semantic errors, the student will be able to question various side-effects with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3132 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to compare major sections of an algorithm with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3133 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to criticize built-in commands/functions with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3134 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to appraise and minimize the use literals with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3135 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to experiment with variable assignments with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3136 | FINAL DRAFT: Given a lecture/demonstration and a functional algorithm, the student will be able to distinguish data structures from simple variables with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3137 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to analyze value parameters with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3138 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to analyze reference parameters with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3139 | FINAL DRAFT: Given a lecture/demonstration and an algorithm with programmer-defined functions or objects, the student will be able to analyze function prototypes and various compiler directives with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3140 | FINAL DRAFT: Given an instructor defined programming project(s) with an algorithmic solution, the student will be able to Review and illustrate the presented model with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3141 | FINAL DRAFT: Given an instructor defined programming project(s) with an algorithmic solution, the student will be able to trace, question, and inspect the algorithm(s) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3142 | FINAL DRAFT: Given an instructor defined programming project(s) with an algorithmic solution, the student will be able to analyze and propose improvements for the project with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3143 | FINAL DRAFT: Given an instructor defined programming project(s) and a related algorithm skeleton(s), the student will be able to examine and develop a complete software model with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3144 | FINAL DRAFT: Given an instructor defined programming project(s) and a related algorithm skeleton(s), the student will be able to create an accurate and functional software model with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3145 | FINAL DRAFT: Given an instructor defined programming project(s), the student will be able to create an accurate and functional software model with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3149 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to demonstrate correct use of terminology in program comments with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3150 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to question the representation of text and numbers (literals) within an algorithm with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3151 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to discuss data types with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3152 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to illustrate the execution of a program with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3153 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to discuss various programming design techniques and styles with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3154 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to describe programming statements for output and input with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3155 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to restate the process for declaring constants and variables with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3156 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to explain the scope of variables and subroutines with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3157 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to differentiate between structured programming and object-oriented programming with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3158 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to illustrate the use of any data structure within their project with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3159 | DRAFT: Given a student presentation and research evidence of a major programming project, the student will be able to describe the program model and results with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3160 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to recognize artificial intelligence (hereby abbreviated as AI) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3161 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to identify natural languages with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3162 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to review knowledge-based systems with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3163 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to explain machine learning with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3164 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to describe AI in game playing and searching with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3165 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to describe AI in nature and robotics with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3166 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to describe AI in vision and speech with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3167 | DRAFT: Given an introduction to related models of intelligent behavior, the student will be able to dramatize the myth(s) of intelligent behavior with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3170 | DRAFT: Given a current technology article relating to the limits of computing, the student will be able to describe the relationship of computers within society with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3171 | DRAFT: Given a current technology article relating to the limits of computing, the student will be able to calculate the efficiency of an algorithm with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3172 | DRAFT: Given a current technology article relating to the limits of computing, the student will be able to describe the demand for parallel processing with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3173 | DRAFT: Given a current technology article relating to the limits of computing, the student will be able to illustrate the concept of parallel processing with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3174 | DRAFT: Given a current technology article relating to the limits of computing, the student will be able to recognize computationally intensive & hard problems with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3175 | DRAFT: Given a current technology article relating to the limits of computing, the student will be able to identify unsolvable problems for the computer with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3180 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to correct errors by making appropriate changes and rechecking the program to ensure that the desired results are produced with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3181 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to conduct trial executions of programs & software applications to be sure they will produce the desired information and that the instructions are correct with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3182 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to compile and write documentation of program development and subsequent revisions, inserting comments in the coded instructions so others can understand the program with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3183 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to write, update, & maintain computer programs or software packages to handle specific jobs such as tracking inventory, storing or retrieving data, or controlling other equipment with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3184 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to consult with teachers, engineers, and technical personnel to clarify program intent, identify problems, and suggest changes with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3185 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to perform or direct revision, repair, or expansion of existing programs to increase operating efficiency or adapt to new requirements with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3186 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to write, analyze, review, and rewrite programs, using work-flow chart and diagram, and applying knowledge of computer capabilities, subject matter, and symbolic logic with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3187 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to write or contribute to instructions or manuals to guide end users with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3188 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to investigate whether networks, workstations, the central processing unit of the system, or peripheral equipment are responding to a program's instructions with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 3189 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to prepare detailed work-flow charts and diagrams that describe input, output, and logical operation, and convert them into a series of instructions coded in a computer language(s) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3200 | DRAFT: Given a demonstration and lectures on fundamentals of programming, the student will be able to create algorithms utilizing control statements, functions, linear data structures, and file input/output operations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3201 | DRAFT: Given an introduction to computers and programming languages, the student will be able to discuss the history of selected programming languages with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3202 | DRAFT: Given an introduction to computers and programming languages, the student will be able to describe the program development life cycle (PDLC) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3203 | DRAFT: Given an introduction to computers and programming languages, the student will be able to write basic algorithms for console output with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3204 | DRAFT: Given an introduction to computers and programming languages, the student will be able to develop algorithms using command-line tools on selected OSs with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3205 | DRAFT: Given an introduction or demonstration on computational thinking, the student will be able to solve practical problems logically with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3206 | DRAFT: Given an introduction or demonstration on computational thinking, the student will be able to declare and use primitive variables to store data with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3207 | DRAFT: Given an introduction or demonstration on computational thinking, the student will be able to write algorithms to perform simple calculations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3208 | DRAFT: Given an introduction or demonstration on computational thinking, the student will be able to practice commenting code, proper naming conventions, and correct programming style with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3209 | DRAFT: Given an introduction or demonstration on computational thinking, the student will be able to debug code by identifying syntax errors, run-time errors, and semantic/logic errors with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3210 | DRAFT: Given a lecture or demonstration of algorithmic solutions implementing selection/branch statements, the student will be able to choose among two or more alternate execution paths within any algorithm with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3211 | DRAFT: Given a lecture or demonstration of algorithmic solutions implementing selection/branch statements, the student will be able to declare then use Boolean (bool) types with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3212 | DRAFT: Given a lecture or demonstration of algorithmic solutions implementing selection/branch statements, the student will be able to write Boolean expressions using proper comparison operators with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3213 | DRAFT: Given a lecture or demonstration of algorithmic solutions implementing selection/branch statements, the student will be able to combine conditions using logical operators and the rules governing operator precedence/associativity with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3214 | DRAFT: Given a lecture or demonstration of algorithmic solutions implementing selection/branch statements, the student will be able to implement selection control using switch statements with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3215 | DRAFT: Given an introduction to loops and iterative processing, the student will be able to write and compile algorithms to accurately control the repeated execution of a block of statements with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3216 | DRAFT: Given an introduction to loops and iterative processing, the student will be able to implement and control a loop with a user confirmation or sentinel values with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3217 | DRAFT: Given an introduction to loops and iterative processing, the student will be able to write various loops using 'while', 'do-while', and 'for' statements with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3218 | DRAFT: Given an introduction to loops and iterative processing, the student will be able to process and manage large input from a file using a loop with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3219 | DRAFT: Given an introduction to loops and iterative processing, the student will be able to examine and trace nested loops with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3220 | DRAFT: Given an introduction to basic functions, the student will be able to assemble a library of programmer defined functions for the purpose of modular algorithm development with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3221 | DRAFT: Given an introduction to basic functions, the student will be able to define functions that return a value and 'void' functions with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3222 | DRAFT: Given an introduction to basic functions, the student will be able to declare & invoke functions with arguments as well as function overloading with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3223 | DRAFT: Given an introduction to basic functions, the student will be able to implement function prototypes for function headers with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3224 | DRAFT: Given an introduction to basic functions, the student will be able to create header files in order to reuse functions with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3225 | DRAFT: Given an introduction to advanced function features, the student will be able to design algorithms using function abstraction and stepwise refinement with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3226 | DRAFT: Given an introduction to advanced function features, the student will be able to pass arguments to a function by value and by reference with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3227 | DRAFT: Given an introduction to advanced function features, the student will be able to differentiate between pass-by-value and pass-by-reference with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3228 | DRAFT: Given an introduction to advanced function features, the student will be able to determine the scope of local and global variables with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3229 | DRAFT: Given an introduction to advanced function features, the student will be able to create functions with default arguments with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3230 | DRAFT: Given a fundamental review of linear arrays, the student will be able to create a linear and sequential data structure or array(s) capable of storing a large number of values within an algorithm(s) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3231 | DRAFT: Given a fundamental review of linear arrays, the student will be able to declare an array within an algorithm(s) and describe the necessity while programming with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3232 | DRAFT: Given a fundamental review of linear arrays, the student will be able to initialize and index (via coding) individual elements within an array with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3233 | DRAFT: Given a fundamental review of linear arrays, the student will be able to develop and invoke functions with array arguments with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3234 | DRAFT: Given a fundamental review of linear arrays, the student will be able to search and sort array elements with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3235 | DRAFT: Given a fundamental analysis of multidimensional arrays, the student will be able to create multidimensional arrays (tables, cubes, ...) capable of storing a large number of values within an algorithm(s) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3236 | DRAFT: Given a fundamental analysis of multidimensional arrays, the student will be able to declare, initialize, and access elements within a two-dimensional array with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3237 | DRAFT: Given a fundamental analysis of multidimensional arrays, the student will be able to trace index variables within a loop and nested loop(s) as elements are referenced in a multidimensional array with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3238 | DRAFT: Given a fundamental analysis of multidimensional arrays, the student will be able to pass two-dimensional arrays to functions with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3239 | DRAFT: Given a fundamental analysis of multidimensional arrays, the student will be able to declare multidimensional arrays with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3240 | DRAFT: Given a lecture or demonstration of file input and output, the student will be able to read & write data from variables and arrays (or from RAM) to a file with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3241 | DRAFT: Given a lecture or demonstration of file input and output, the student will be able to determine if a file exists with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3242 | DRAFT: Given a lecture or demonstration of file input and output, the student will be able to test for the end of file marker with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3243 | DRAFT: Given a lecture or demonstration of file input and output, the student will be able to write data in a specific format with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3244 | DRAFT: Given a lecture or demonstration of file input and output, the student will be able to open a binary file for modification with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3245 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to research then design data structures and flow of control required for implementing a substantial programming project with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3250 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to demonstrate program analysis and design with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3251 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to list the steps in a program development cycle with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3252 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to interpret a problem statement and identify program requirements with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3253 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use pseudo-code or a graphical representation to show the structure of a program or module with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3254 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to determine input and output with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3255 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to establish how input will be obtained with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3256 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to plan format for output with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3257 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to choose appropriate data structures with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3258 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to select or create algorithms to solve problems with a computer program with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3259 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use stepwise refinement to improve design with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3260 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to develop a testing plan with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3261 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to write documentation with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3300 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to use an editor to create and verify algorithms with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3301 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to enter and modify code using an IDE or text editor with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3302 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to compile and execute algorithms with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3303 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to correct syntax errors with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3304 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to follow established documentation standards with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3305 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use recognized conventions for naming identifiers and formatting code with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3306 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to employ debugging strategies to eliminate errors with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3307 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to access program and language documentation with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3310 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to test and debug to verify program operation with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3311 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to test individual program modules with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3312 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify boundary cases and generate appropriate test data with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3313 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to preform integration testing including tests within a program to protect execution from bad input or other run-time errors with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3314 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to categorize, identify, and correct errors in code (syntax, logic, and run-time) with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3315 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to hand-trace code with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3400 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to write code to perform arithmetic calculations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3401 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to identify and use arithmetic operators correctly applying the order of operations with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3402 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to interpret and construct mathematical formulas with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3403 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to distinguish between integers and real numbers with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3404 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to increment and decrement variables with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3410 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to employ modularity in writing programs with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3411 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to call standard library functions with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3412 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to utilize parameters to pass data into program modules with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3413 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to outline the scope of identifiers within a program and its modules with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3414 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to code modules based on a top-down design with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3415 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to write and use modules that return values with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3500 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to write code using conditional structures with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3501 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to compare values using relational operators (equal, less than, greater than, ...) with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3502 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to form complex expressions using logical operators (and, or, not) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3503 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate boolean expressions with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3504 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to select an appropriate decision structure for a given situation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3505 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to construct decision/branch statements with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3506 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use nested decision structures in programs with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3507 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to implement multiple-choice decision statements (if/else, switch, case) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3600 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to utilize repetition structures with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3601 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify various types of repetition structures with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3602 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe the role of a loop control variable with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3603 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain causes and effects of infinite loops with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3604 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to select an appropriate repetition structure for a given situation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3605 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use repetition to count and produce totals with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3606 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to design and implement nested loops with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3607 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create and evaluate a recursive process with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3700 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to create algorithms employing basic date structures with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3701 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to declare numeric, boolean, character, and string data types with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3702 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to choose the appropriate data type for a given situation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3703 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to declare and use constants in a program with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3704 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to write assignment statements for initializing and modifying variables with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3705 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to recognize numerical limits of primitive data types with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3706 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to perform manual operations on strings such as concatenation and length with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3710 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to implement arrays in programs with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3711 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to declare and initialize arrays of simple data types with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3712 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to declare and use arrays of user-defined data types with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3713 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science and information technology disciplines (respectively), the student will be able to access elements within an array with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 3714 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to manipulate data stored in an array with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3715 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to search and sort data in an array with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3716 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to define and use two-dimensional arrays with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3720 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to declare and use dynamic data structures in programs with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3721 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to select an appropriate data structure for a given situation such as an array, a linked-list, a stack, a queue, a binary tree, ... with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3722 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to insert into and delete data from a dynamic data structure with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3723 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to perform traversals on a dynamic data structure with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3800 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify methods to input and output information with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3801 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to provide user with means to input data such as the console or a GUI with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3802 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use input/output statements in a program with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3803 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to assign input to variables with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3804 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to output text with formatting with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3805 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use graphics to create images at specified locations with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3810 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use external data sources within a program with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3811 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to input data from a sequential file or database with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3812 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to write output to a sequential file or database with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3813 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to add data to an existing file with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3814 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to write code to update files or database tables with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
3900 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to employ object-oriented programming techniques with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3901 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to make a distinction between an object and a class with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3902 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe relationships between classes such as an is-a or has-a with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3903 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to instantiate objects from existing classes with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3904 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to write appropriate statements to invoke an object's accessor methods with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3905 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to change the state of an object by invoking a modifier method with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3906 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to determine requirements for constructing new objects by reading the API with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3907 | DRAFT: Given a written project description, the student will be able to design a class with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3908 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to write a class definition for an original user defined class with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3909 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to write a definition for a class that extends an existing class with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
| 3910 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to write a client program that includes user-defined objects with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C). |
4100 | DRAFT: Given an introduction to networking and a class discussion, the student will be able to relate to networks and the Internet with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4101 | DRAFT: Given an introduction to networking and a class discussion, the student will be able to convert a binary number to an IP address with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4102 | DRAFT: Given an introduction to networking and a class discussion, the student will be able to convert an IP address to a binary number with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4103 | DRAFT: Given a class discussion and teacher instructions on the basics of networking and terminology, the student will be able to discuss the history of networking with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4104 | DRAFT: Given a class discussion and teacher instructions on the basics of networking and terminology, the student will be able to identify networks by area and discuss VPNs with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4105 | DRAFT: Given a class discussion and teacher instructions on the basics of networking and terminology, the student will be able to calculate data transfer time with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4106 | DRAFT: Given a class discussion and teacher instructions on the basics of networking and terminology, the student will be able to list the layers of the OSI and TCP/IP networking models with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4107 | DRAFT: Given a sample of common network media, the student will be able to identify popular LAN copper cabling with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4108 | DRAFT: Given a sample of common network media, the student will be able to compare copper cabling to fiber-optic cabling with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4109 | DRAFT: Given a class discussion and teacher instructions on wireless media, the student will be able to identify Wireless-LAN organization and standards with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4110 | DRAFT: Given a sample of common network media, the student will be able to test a cable by frequency-based methods with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4111 | DRAFT: Given a sample of common network media, the student will be able to identify singles and noise with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4112 | DRAFT: Given a common network device, the student will be able to connect basic Ethernet networking devices with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4113 | DRAFT: Given a list of common characteristics of a wide area network (WAN), the student will be able to discuss the physical and data link layers involved with a WAN with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4114 | DRAFT: Given a class discussion and teacher instructions on Ethernet fundamentals, the student will be able to list different IEEE Ethernet types with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4115 | DRAFT: Given a class discussion and teacher instructions on Ethernet fundamentals, the student will be able to discuss IEEE Ethernet standards relating to the OSI model with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4116 | DRAFT: Given a class discussion and teacher instructions on Ethernet fundamentals, the student will be able to describe the data packet encapsulation within an Ethernet frame with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4117 | DRAFT: Given a class discussion and teacher instructions on Ethernet fundamentals, the student will be able to identify the format of a Media Access Control MAC address with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4118 | DRAFT: Given a class discussion and teacher instructions on Ethernet fundamentals, the student will be able to describe the rules governing when a device can transmit (CSMA/CD) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4119 | DRAFT: Given a class discussion and teacher instructions on Ethernet fundamentals, the student will be able to identify full and half duplex modes with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4120 | DRAFT: Given a class discussion and teacher instructions on Ethernet fundamentals, the student will be able to prevent data collisions with with hubs and switch buffering with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4121 | DRAFT: Given a class discussion and teacher instructions on Ethernet technologies, the student will be able to describe the characteristics of 10/100 Mbps Ethernet with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4122 | DRAFT: Given a class discussion and teacher instructions on Ethernet technologies, the student will be able to identify the pin-outs and media that are used with a Gigabit Ethernet with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4123 | DRAFT: Given a class discussion and teacher instructions on Ethernet technologies, the student will be able to compare Gigabit and 10-Gigabit Ethernet networks with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4124 | DRAFT: Given a class discussion and teacher instructions on Ethernet technologies, the student will be able to describe how bridges and LAN switches operate with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4125 | DRAFT: Given a class discussion and teacher instructions on Ethernet switching, the student will be able to describe latency with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4126 | DRAFT: Given a class discussion and teacher instructions on Ethernet switching, the student will be able to identify the functions and features of the Spanning Tree Protocol with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4127 | DRAFT: Given a class discussion and teacher instructions on Ethernet switching, the student will be able to compare a collision domain and a broadcast domain with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4128 | DRAFT: Given a class discussion and teacher instructions on Ethernet switching, the student will be able to describe data flow through a network with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4129 | DRAFT: Given a class discussion and teacher instructions on Ethernet switching, the student will be able to illustrate network segmentation with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4130 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to list the four TCP/IP layers with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4131 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to describe the function(s) of each layer of the TCP/IP model with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4132 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to compare the TCP/IP model to the OSI model with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4133 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to describe the function and structure of an IP address with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4134 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to differentiate between a public and a private IP address with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4135 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to identify a static assignment of an IP address with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4136 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to compare static and dynamic addressing with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4137 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to describe dynamic addressing and DHCP with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4138 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to describe the importance of sub-netting with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4139 | DRAFT: Given a TCP/IP protocol suite and IP addressing scheme, the student will be able to describe ARP and how it is handled by a router with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4140 | DRAFT: Given a class discussion and teacher instructions on routing fundamentals and subnets, the student will be able to describe a router with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4141 | DRAFT: Given a class discussion and teacher instructions on routing fundamentals and subnets, the student will be able to list routed protocols with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4142 | DRAFT: Given a class discussion and teacher instructions on routing fundamentals and subnets, the student will be able to describe the fields in an IP packet header with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4143 | DRAFT: Given a class discussion and teacher instructions on routing fundamentals and subnets, the student will be able to compare static and dynamic routing with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4144 | DRAFT: Given a class discussion and teacher instructions on routing fundamentals and subnets, the student will be able to describe the process of forming a subnet mask with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| 4145 | DRAFT: Given a description of the TCP/IP transport and application layers, the student will be able to describe the format of the TCP and UDP headers with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
4200 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to configure LAMP, MAMP, and WAMP web servers on an Intel based PC with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
4300 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to assemble a High Performance Cluster (HPC) for the purpose of distributed processing with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
4400 | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to research and evaluate several High Performance Clusters (HPCs) currently used by local business corporations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to research and examine the foundations of network technologies (REF: 100N) with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the function of common networking protocols, including TCP, FTP, UDP, TCP/IP suite, DHCP, TFTP, DNS, HTTP(S), ARP, SIP (VoIP), and RTP with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify commonly used TCP and UDP default ports, including TCP ports: FTP - 20, 21, SSH - 22, TELNET - 23, SMTP - 25, DNS - 53, and HTTP - 80, with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify the following address formats, including IPv6, IPv4, and MAC addressing with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a scenario, the student will be able to evaluate the proper use of addressing technologies and addressing schemes with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify common IPv4 and IPv6 routing protocols, including Link state: OSPF, IS-IS & Distance vector: RIP, RIPv2, BGP & Hybrid: EIGRP with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the purpose and properties of routing, including IGP vs. EGP, static vs. dynamic, next hop, understanding routing tables and how they pertain to path selection, & explain convergence with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to compare the characteristics of wireless communication standards, including 802.11 a/b/g/n: speeds, distance, channels, frequency authentication & encryption: WPA, WEP, RADIUS, TKIP, & AES with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify network media and topologies (REF: 200N) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to categorize standard cable types and their properties with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify common connector types, including RJ-11, RJ-45, BNC, SC, ST, LC, and RS-232 with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify common physical network topologies, including Star, Mesh, Bus, Ring, Point to Point, Point to Multipoint, & Hybrid with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a scenario, the student will be able to differentiate and implement appropriate wiring standards, including 568A, 568B, Straight vs. cross-over, Rollover, & Loop-back with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to categorize WAN technology types & properties with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to categorize LAN technology types & properties with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain common logical network topologies and their characteristics, including Peer to Peer, Client/Server, VPN, & VLAN with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to install and verify components of wiring distribution, including Vertical and horizontal cross connects, Patch panels, 66/110 blocks, MDFs, IDFs, 25/100 pairs, Demarc/extension, Smart jack, & wire terminations with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to install and configure network devices (REF: 300N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to install, configure & differentiate between common network devices, including Hub, Repeater, Modem, NIC, Media converters, Basic switch, Bridge, Wireless access point, & Basic routers/firewalls/DHCP Servers with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify the functions of specialized network devices, including Multilayer switch, Content switch, IDS/IPS, Load balancer, Multifunction network devices, DNS server, Bandwidth shaper, Proxy server, & CSU/DSU with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the advanced features of a switch, including PoE, Spanning tree, VLAN, Trunking, Port mirroring, & Port authentication with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to implement a basic wireless network, including install client, access point placement, install access point: configure appropriate encryption, configure channels and frequencies, set ESSID and beacon & verify installation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to understand the foundations of network management (REF: 400N) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the function of each layer of the OSI model, including Layer 1 - Physical, Layer 2 - Data Link, Layer 3 - Network, Layer 4 - Transport, Layer 5 - Session, Layer 6 - Presentation, & Layer 7 - Application with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify types of configuration management documentation, including wiring schematics, physical and logical network diagrams, baselines, policies, procedures/configurations, & regulations with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to evaluate the network based on configuration management documentation with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to conduct network monitoring to identify performance and connectivity issues, including network monitoring utilities (e.g. packet sniffers, connectivity software, load testing, throughput testers), and system/history/event logs with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain different methods and rationales for network performance optimization with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to implement network troubleshooting methodologies with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the software engineering, information systems, and information technology disciplines (respectively), the student will be able to troubleshoot common connectivity issues and select an appropriate solution with eighty-five (85%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to use network tools (REF: 500N) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a scenario, the student will be able to select the appropriate command line interface tool and interpret the output to verify functionality, including Traceroute, Ipconfig, Ifconfig, ARP/Pings, Nslookup, Hostname, Mtr, Route, & Netstat with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the purpose of network scanners, including packet sniffers intrusion detection software, intrusion prevention software, and port scanners with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a scenario, the student will be able to utilize the appropriate hardware tools, including cable testers, protocol analyzer, certifiers, TDR, OTDR, multimeter, toner probe, punch down tool, cable stripper, snips, & temperature monitor with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain network security using static hardware (REF: 600N) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the function of hardware and software security devices, including network based firewall, host based firewall, IDS, IPS, & VPN concentrator with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain common features of a firewall, including application layer vs. network layer, stateful vs. stateless, scanning services, content filtering, signature identification, & zones with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain the methods of network access security, including ACL: MAC filtering, IP filtering Tunneling & encryption: SSL VPN, VPN, L2TP, PPTP, IPSEC Remote access: RAS, RDP, PPPoE, PPP, VNC, & ICA with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain methods of user authentication, including PKI, Kerberos, AAA: RADIUS, TACACS+, Network access control: 802.1x, CHAP, MS-CHAP, & EAP with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to explain issues that affect device security, including physical security, restricting local and remote access, secure methods vs. unsecure methods: SSH, SNMPv3, S/FTP, SCP, TELNET, HTTP/S, RSH, RCP, and SNMPv1/2 with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
| #### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify common security threats and mitigation techniques with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to describe network administration (REF: 700N) with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to plan an information network (REF: 800N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to implement an information network (REF: 900N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to perform network maintenance (REF: 1000N) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to research the foundations of network monitoring and optimization techniques (REF: 1100N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to configure network operating systems (REF: 1200N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the information systems and information technology disciplines (respectively), the student will be able to practice common network operations (REF: 1300N) with ninety percent (90%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to develop network recovery solutions (REF: 1400N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to research and explain network security using software configurations (REF: 1500N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles within the computer science, software engineering, information systems, and information technology disciplines (respectively), the student will be able to upgrade a network (REF: 1600N) with eighty percent (80%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
#### | DRAFT: Given a lecture/demonstration, an Internet-based research exercise, or a list of acceptable principles under the umbrella of a computer science discipline, the student will be able to identify network vendors and products (REF: 1700N with one hundred percent (100%) accuracy based on the Association of Computing Machinery and the Computer Science Teacher Association (ACM/CSTA) academic standards including published standards of the World Wide Web Consortium (W3C) and the Institute of Electrical and Electronics Engineers (IEEE or school policy). |
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