College of Applied Science and Technology 81 systems, ignition systems. The use of electronic service information, the proper diagnostic process, and proper diagnostic service tools is emphasized. (AUSV 1130 , AUSV 2030 are equivalent to AUSV 2635.) Prerequisite: AUSV 1000 , AUSV 1335 . AUSV 2645 - General Motors Engine Mechanical and Engine Control Systems Credits: (6) Theory, operation, diagnosis, and repair of General Motors automotive engines, fuel systems, OBD-II and Tier-2 emission control systems, ignition systems. The use of electronic service information, the proper diagnostic process, and proper diagnostic service tools is emphasized. (AUSV 1140 , AUSV 2040 are equivalent to AUSV 2645.) Prerequisite: AUSV 1000 , AUSV 1345 . AUSV 2655 - Chrysler Engine Mechanical and Engine Control Systems Credits: (6) Theory, operation, diagnosis, and repair of Chrysler automotive engines, fuel systems, OBD-II and Tier-2 emission control systems, ignition systems. The use of electronic service information, the proper diagnostic process, and proper diagnostic service tools is emphasized. (AUSV 1150 , AUSV 2050 are equivalent to AUSV 2655.) Prerequisite: AUSV 1000 , AUSV 1355 . AUSV 2665 - Toyota Engine Mechanical and Engine Control Systems Credits: (6) Theory, operation, diagnosis, and repair of Toyota automotive engines, fuel systems, OBD-II and Tier-2 emission control systems, ignition systems. The use of electronic service information, the proper diagnostic process, and proper diagnostic service tools is emphasized. (AUSV 1160 , AUSV 2060 are equivalent to AUSV 2665.) Prerequisite: AUSV 1000 , AUSV 1365 . AUSV 2860 - Automotive Shop Practice Credits: (3-8) Typically taught: Spring [Full Sem] Summer [Full Sem] Provides an opportunity to practice skills needed by Automotive Service technicians derived from classroom and shop experience. Simulates line mechanic work. Prerequisite: Instructor approval required. AUSV 2880 - Cooperative Practicum Credits: (3-8) Typically taught: Fall [Full Sem] Spring [Full Sem] Summer [Full Sem] Supervised work experience, at the sponsoring dealership, which applies directly to previous academic courses. Fulltime employment and approval of faculty supervisor required. May be taken 10 times up to 30 credit hours. AUSV 2890 - Cooperative Work Experience Credits: (1-6) Open to second year Automotive Service students. A continuation of AUSV 1890 . NOTE: AUSV 2890 may be taken in lieu of AUSV 2860 , when appropriate work experience is available and the student obtains departmental approval. AUSV 2920 - Short Courses, Workshops, Institutes and Special Programs Credits: (1-4) Consult the semester class schedule for the current offering under this number. The specific title and credit authorized will appear on the student transcript. Department of Computer Science Department Chair: Brian Rague Location: Technical Education Building, Room 110 Telephone Contact: Anita Proul 801-626-7929 Salt Lake Program Coordinator: Ted Cowan 801-957- Davis Program Coordinator: Brad Peterson 801-395- 3465 Associate Professors: Delroy Brinkerhoff, David Ferro, Richard Fry, Robert Hilton, Brian Rague, Drew Weidman; Assistant Professors: Ted Cowan, Spencer Hilton, Raji Lauffer, Garth Tuck, Yong Zhang; Instructors: Luke Fernandez, Joshua Jensen, Brad Peterson The Department of Computer Science offers an Associate of Applied Science Degree and a Bachelor of Science Degree in Computer Science. The nature of the curricula offers flexibility as a student may tailor their program of study to their interests and professional aspirations. The curricula is based on ABET suggested program outcomes and also provides a Customized Option for students seeking a second bachelor's degree or a minor in a different academic area. The Department also offers a minor, a teaching minor, and a BIS concentration. A Game Development Certificate is also offered that consists of 15-16 credits that focus on game development and math and also requires a bachelor's degree in Computer Science to be completed as a pre or co-requisite. The Computer Science program is a technical, scientific approach requiring a solid foundation in mathematics and physics. The program blends scientific and engineering principles implemented through actual, practical, and applications-oriented experience as well as the intellectual study of computing. It is designed to provide a sound fundamental understanding of logic and of digital computer organization as well as the interaction between hardware, software and the interconnection of system components. Also emphasized is software engineering which includes understanding operating systems and other software systems design including implementation of the theory of computing, analysis of algorithms, simulation, and knowledge-based systems. The objectives of the Computer Science program are to provide students with an education that will meet their academic and career goals as well as meeting the needs of local industries. Weber State University 2013-2014 Catalog