An introduction to the engineering profession with emphasis on technical communication and team-based engineering design.
Grade Basis: L
Credit hours: 2.0
Lecture hours: 1.0
Lab hours: 3.0
Prerequisites:
Restrictions:
Introduction to computer-aided drafting using CAD software and sketching to generate two- and three-dimensional drawings based on the conventions of engineering graphical communication; topics include spatial relationships, multi-view projections and sectioning, dimensioning, graphical presentation of data, and fundamentals of computer graphics.
Grade Basis: L
Credit hours: 3.0
Lecture hours: 2.0
Lab hours: 4.0
Prerequisites:
Restrictions:
Laboratory experiments supporting theoretical principles presented in ENGR 2305 involving DC and AC circuit theory, network theorems, time, and frequency domain circuit analysis. Introduction to principles and operation of basic laboratory equipment; laboratory report preparation. Co-requisite: ENGR 2305
Grade Basis: L
Credit hours: 1.0
Lab hours: 3.0
Corequisites:
Basic theory of engineering mechanics, using calculus, involving the description of forces, moments, and couples acting on stationary engineering structures; equilibrium in two and three dimensions; free-body diagrams; friction; centroids; centers of gravity; and moments of inertia.
Grade Basis: L
Credit hours: 3.0
Lecture hours: 3.0
Prerequisites:
Corequisites:
Restrictions:
Basic theory of engineering mechanics, using calculus, involving the motion of particles, rigid bodies, and systems of particles; Newton's Laws; work and energy relationships; principles of impulse and momentum; application of kinetics and kinematics to the solution of engineering problems.
Grade Basis: L
Credit hours: 3.0
Lecture hours: 3.0
Prerequisites:
Principles of electrical circuits and systems. Principles of electrical circuits and systems. Basic circuit elements (resistance, inductance, mutual inductance, capacitance, independent and dependent controlled voltage, and current sources). Topology of electrical networks; Kirchhoff's laws; node and mesh analysis; DC circuit analysis; operational amplifiers; transient and sinusoidal steady-state analysis; AC circuit analysis; first- and second-order circuits; Bode plots; and use of computer simulation software to solve circuit problems.
Grade Basis: L
Credit hours: 3.0
Lecture hours: 3.0
Prerequisites:
Corequisites:
Stresses, deformations, stress-strain relationships, torsions, beams, shafts, columns, elastic deflections in beams, combined loading, and combined stresses.
Grade Basis: L
Credit hours: 3.0
Lecture hours: 3.0
Lab hours: 1.0
Prerequisites:
Last updated: 06/14/2022