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| ENGR 1201 - Introduction to Engineering (2-2-0) | |
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| Introduction to engineering as a discipline and profession. Includes instruction in the application of mathematical and scientific principles to the solution of practical problems. A broad range of problems will be considered in order to introduce the student to various engineering majors and careers. | |
Skills: G Prerequisites: One full year of high school physics or equivalent and mathematics through trigonometry. Course Type: T | |
| ENGR 2301 - Vector Mechanics -- Statics (3-3-0) | |
| Calculus-based study of the composition and resolution of forces. Vector algebra, force systems, freebody diagrams; equilibrium of rigid bodies and structures; centroids, distributed loads, friction; moment of inertia. | |
Skills: G Prerequisites: PHYS 2425 or equivalent. Corequisites: MATH 2415 (or previous credit). Course Type: T | |
| ENGR 2302 - Vector Mechanics -- Dynamics (3-3-0) | |
| Calculus-based study of the dynamics of rigid bodies. Includes force-mass-acceleration methods, work and energy, and impulse-momentum computations. Emphasis on two- and three-dimensional kinematics and dynamics, applied to a broad class of engineering problems. Offered in Spring. | |
Skills: G Prerequisites: ENGR 2301 or equivalent and MATH 2415 or equivalent. Course Type: T | |
| ENGR 2332 - Mechanics of Materials (3-3-0) | |
| Stresses and deformations in solids; stress-strain relationships and torsions; beams, shafts and columns; elastic deflections in beams; combined loading and combined stresses. Emphasis on application to engineering problems. Offered in Fall. | |
Skills: G Prerequisites: ENGR 2301 or equivalent and MATH 2415 or equivalent. Course Type: T | |
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