PROGRAM LEARNING OUTCOMES Engineering: Electrical Engineering 1. Apply analysis tools and computer tools in problem solving. 2. Identify interdisciplinary aspects of engineering projects. 3. Apply software engineering principles and procedures. and Computer Engineering AS 4. Do computer algorithm development using C and C++ techniques. 5. Understand the operation and control of electrical measuring equipment. 6. Use computer programming skills to develop software for REQUIRED automation, decision making and control of equipment. 7. Develop test software for evaluation of digital circuits. ENGIN 110 8. Analyze the operation of small scale digital and analog TAKE 1 circuits. Introduction to 9. Design simple operational amplifier circuits. Engineering ENGTC 126 10. Demonstrate knowledge of magnetism and its applications in the design of transformers and actuators. ENGIN 120 Computer Engineering Aided Design 11. Assemble and test digital and analog circuits from circuit Drawing and Drafting – diagrams. AutoCAD COMSC 165 CHEM 120 COMSC 210 ENGIN 230 Advanced Program General pre req Introduction Programming Design College to Circuits and with C and and Data Chemistry I Devices ENGIN 121 C++ Structures ENGIN 135 Engineering Programming Drawing/ DVC II DVC I.B. for Scientists Descriptive pre req and Engineers Geometry Entry Careers in MATH 192 MATH 193 MATH 292 MATH 294 ENGIN 136 •• Engineering design in Analytic pre req Analytic pre req Analytic pre req Differential Computer Geometry Geometry and Geometry and multiple disciplines Equations Programming and Calculus I Calculus II Calculus III for Engineers Using MATLAB* DVC I.B. DVC I.B. DVC I.B. DVC I.B. DVC I.C. DVC I.C. DVC I.C. DVC I.C.

pre req MATH 195 co req MATH 194 Discrete co req co req Linear Algebra* Mathematics* PHYS 130 PHYS 230 PHYS 231 Physics for Physics for Physics for DVC I.C. DVC I.C. Engineers and pre req Engineers and pre req Engineers and Scientists A: Scientists B: Heat Scientists C: You need to see a Counselor for specific Required Mechanics and and Electro- Optics and recommendations about courses that will best meet Wave Motion Magnetism Modern Physics your educational goals. Not all courses on the map are offered every term. Consult the Catalog and the Elective DVC II DVC II DVC II Schedule of Classes for more details. For information about transferring, see: DVC GE category https://www.dvc.edu/enrollment/transfer/index.html

This course has For information on careers in this field see: * prerequisites. https://www.dvc.edu/enrollment/career-employment/ index.html