The Associate of Science degree in Engineering Studies provides a rigorous course of study in the prerequisites of a four-year engineering program. The A.S. in Engineering studies is designed to be able to transfer coursework to an institution offering a B.S. degree in Engineering. Students should work with their academic advisor and other institutions to verify transfer credits.
Engineering Studies – Associate Degree
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Chm 101: General Chemistry I
Fundamental laws, theories, and concepts of modern chemistry. Three lectures and one laboratory period per week.
Chm 101L General Chemistry I Lab
Generally taken with Chm 101 – General Chemistry I.
Chm 102: General Chemistry II
Intensive treatment of the principles of chemistry with analytical study of the anions and cations. Three lectures and one laboratory period per week.
Chm 102L: General Chemistry II Lab
Generally taken with Chm 102 – General Chemistry II.
PhS 201: General Physics I
A general course covering mechanics and heat.
PhS 201L: General Physics I Lab
Generally taken with PhS 201.
PhS 202: General Physics II
A continuation of PhS 201 covering electricity, magnetism, light, sound, and selected topics from atomic physics.
PhS 202L: General Physics II Lab
Generally taken with PhS 202.
CS110: Programming I
This is an entry-level programming course (no prior programming experience needed) that introduces programming using a high-level language such as C++. Students will be taught how to design, code, debug, and document programs using structured techniques and good programming styles. Students will be able to sit the C Programming Language Certified Associate (CLA) certification exam.
Mth 211: Calculus I
In-depth coverage of calculus appropriate for study in mathematics, science, engineering, or other quantitative disciplines. Covers functions, limits, derivatives, applications of derivatives, and foundations of integral calculus.
Mth 212: Calculus II
In-depth coverage of calculus appropriate for study in mathematics, science, engineering, or other quantitative disciplines. Covers integration techniques, applications of integration, sequences and series, and polar coordinates.
Mth 213: Calculus III
In-depth coverage of calculus appropriate for study in mathematics, science, engineering, or other quantitative disciplines. Covers 3-dimensional geometry and extends ideas of calculus into higher dimensional settings.
Mth 305: Differential Equations
A study of the techniques, history, and applications of ordinary and partial differential equations. Topics included are linear equations, infinite series solutions, systems of linear equations, numerical techniques, and partial differential equations.
Mth 308: Linear Algebra
Geometric vectors, vector spaces, inner products, linear transformations, matrices with applications to solutions of systems of equations, linear transformations, and determinates.