Engineering Associate in Science Degree
PROGRAM CODE: 2S03834
The Engineering Associate in Science Degree is designed to prepare students for transfer to a university for a Bachelor of Science in Engineering degree. Students with a bachelor’s degree in engineering may pursue careers in a variety of industries depending on their specialization in the engineering field. In order to be well prepared for the upper division engineering curriculum at a university after transfer, students should complete as many courses as possible from both the core engineering course list and the restricted electives list. This degree requires a total of 24-28 units.
Code | Title | Units |
---|---|---|
Required Courses (24-28 units): | 24-28 | |
Choose at least 6 units from Category A (Engineering courses) and then complete additional units in Category A and/or B (Supporting Courses): | ||
Category A (Engineering Courses): | ||
Surveying I | 4 | |
Engineering CAD | 4 | |
Introduction to Engineering | 3 | |
Statics | 3 | |
Electric Circuits | 4 | |
Electric Circuits Lab | 1 | |
Programming and Problem-Solving in MATLAB | 3 | |
Category B (Supporting Courses): | ||
General Chemistry I | 5 | |
Calculus I (formerly MATH 150AF) | 4 | |
or MATH 151HF | Honors Calculus I (formerly MATH 150HF) | |
Calculus II (formerly MATH 150BF) | 4 | |
or MATH 152HF | Honors Calculus II | |
Multivariable Calculus (formerly MATH 250AF) | 4 | |
Linear Algebra and Differential Equations (formerly MATH 250BF) | 4 | |
Linear Algebra | 4 | |
Ordinary Differential Equations | 4 | |
General Physics I | 4 | |
General Physics II | 4 | |
General Physics III | 4 | |
Total Units | 24-28 |
Outcome 1: Apply knowledge of mathematics, science, and engineering.
Outcome 2: Design and conduct experiments, as well as to analyze and interpret data.
Outcome 3: Identify, formulate, and solve engineering problems.
Outcome 4: Use the techniques, skills, and modern engineering tools necessary for engineering practice.