Engineering

3 class and 2 lab hrs/wk, 4 cr.

Studies basic electrical circuit theory, including voltage, current and power relationships, and circuit parameters of resistance, inductance, and capacitance. Covers basic DC and natural responses of circuits. Also includes operational amplifier theory and an introduction to AC analysis.

Prerequisite: MTH252 or consent of instructor.

F

3 class and 2 lab hrs/wk, 4 cr.

Covers sinusoidal steady-state analysis, the basic operation of three-phase circuits, and how to analyze electric circuits containing mutuallycoupled coils. Also covers transformer function in circuits and the characteristics of resonant circuits.

Prerequisite: MTH252 and EGR201, or consent of instructor.

W

3 class and 2 lab hrs/wk, 4 cr.

Covers Fourier series, LaPlace Transforms, and their uses in electrical control theory. Includes the Bode diagram, Boolean algebra, and basic logic gates.

Prerequisite: MTH252, MTH256 and EGR201, or consent of instructor.

Offered as needed.

3 class and 2 lab hrs/wk, 4 cr.

Analyzes the forces induced in structures and machines by various types of loading.

Prerequisite: MTH252 or consent of instructor.

F

3 class and 2 lab hrs/wk, 4 cr.

Studies kinematics, Newton’s laws of motion, work energy relations, and impulse-momentum relationships applied to engineering systems.

Prerequisite: EGR211, MTH252, and PH211, or consent of instructor.

W

3 class and 2 lab hrs/wk, 4 cr.

Covers properties of structural materials and analysis of stress and deformation in axially loaded members, circular shafts, beams, and statically indeterminate systems.

Prerequisite: EGR211 and MTH252 or consent of instructor.

Sp

3 class hrs/wk, 3 cr.

Covers probability, common probability distributions, sampling distributions, estimation, hypothesis testing, control charts, regression analysis, and experiment design.

Prerequisite: MTH252

Sp

1 class hr and 6 lab hrs/wk, 3 cr.

Covers graphic communication, multi-view and pictorial representation, conceptual design, spatial analysis, and engineering design representation through use of advanced level computer tools.

Prerequisite: DRF130 or consent of instructor.

F, W