PHYS 202 – Technical Physics III
Prerequisites/Corequisites: Take PHYS-201. (Required, Previous). | Take MATH-202. (Required, Concurrent). | Take PHYS-202L. (Required, Concurrent). Credit Hours: Min: 4; Max: Description: Calculus-based introduction to classical electricity and magnetism. Topics include Coulomb’s Law, electric fields, Gauss’ Law, electric potential and potential energy, electric components and circuits, magnetism and magnetic fields, magnetic forces and torques, magnetic materials, […]
PHYS 200 – Technical Physics I
Prerequisites/Corequisites: Take MATH-132 or MATH-137. (Required, Previous or concurrent). | Take PHYS-200L. (Required, Concurrent). Credit Hours: Min: 4; Max: Description: Introduction to waves, fluids, thermodynamics, optics, atoms, nuclei, and particles. Topics include wave motion, sound waves, buoyancy, temperature, gas laws, heat, calorimetry, states of matter, laws of thermodynamics, light, reflection, refraction, diffraction, interference, standing waves, […]
MATH 301 – Ordinary Differential Equations
Prerequisites/Corequisites: Take MATH-202; Minimum grade C. (Required, Previous). Credit Hours: Min: 3; Max: Description: General first-order differential equations and second-order linear equations with applications. Other topics may include Mathematical models, computational methods, dynamical systems, aspects of higher-order linear equations, Laplace transforms, and an introduction to partial differential equations.
MATH 306 – Multivariable Calculus
Prerequisites/Corequisites: Take MATH-203; Minimum grade C. (Required, Previous). Credit Hours: Min: 3; Max: Description: Vectors and vector calculus; the calculus of real-valued functions of several variables; topics include partial derivatives, gradients, extrema problems, multiple integrals, iterated integrals, line integrals, and Green’s Theorem, as time permits.
MATH 203 – Calculus III
Prerequisites/Corequisites: Take MATH-202; Minimum grade C. (Required, Previous). Credit Hours: Min: 3; Max: Description: Continuation of Calculus II, the course covers sequences, infinite series, improper integrals, and applications.
MATH 202 – Calculus II
Prerequisites/Corequisites: Take MATH-201; Minimum grade C. (Required, Previous). Credit Hours: Min: 3; Max: Description: Continuation of Calculus I, the course covers the integral, techniques of integration, the exponential function, the logarithm function, and applications.
MATH 201 – Calculus I
Prerequisites/Corequisites: Take 1 group (Take MATH-132; Minimum grade C /Take MATH-137; Minimum grade C /Take MATH-S570). (Required, Previous). Credit Hours: Min: 3; Max: Description: The first of a three-course sequence covering an introduction to the analysis of real-valued functions of one real variable. Topics include the limit of a function, continuity, the derivative, and applications. […]
ENGR 468 – Production Planning
Prerequisites/Corequisites: Take ENGR-250 or ENGR-252. (Required, Previous). Credit Hours: Min: 3; Max: Description: This course provides an in-depth study of the full spectrum of activities of production managers. Topics covered include forecasting, independent demand inventory management, just-in-time inventory management, materials requirement planning, capacity planning, production activity control, and master production scheduling. Emphasis will be given […]
ENGR 411 – Design for Manufacturing & Assembly
Prerequisites/Corequisites: Take ENGR-350. (Required, Previous). | Take ENGR-401. (Required, Previous or concurrent). Credit Hours: Min: 3; Max: Description: The course is based on concurrent engineering techniques to link product design to manufacturing and assembly process design. The course will introduce students to manufacturing and assembly process design techniques used to reduce costs. Course topics include […]
ENGR 401 – Design of Mechanisms
Prerequisites/Corequisites: Take ENGR-201 ENGR-250 ENGR-301 MATH-301. (Required, Previous). Credit Hours: Min: 3; Max: Description: The course focuses on the function, classification, position, velocity, acceleration, and dynamic forces of multi-element mechanical linkages. Furthermore, the course discusses design methods and practical information about common mechanisms and mechanism components, including four-bar linkages, gears, gear trains, and cams.
ENGR 397 – Undergrad Research in Engineering
Prerequisites/Corequisites: Take ENGR-320. (Required, Previous). Credit Hours: Min: 1; Max: 3 Description: This course will be open to students in their junior or senior year. Working with an engineering faculty member, each student enrolled will be assigned to one or more research project(s). The project(s) assigned will be determined based on the interest of the […]
ENGR 350 – Manufacturing Processes
Prerequisites/Corequisites: # Take ENGR-250 or ENGR-252 # Take ENGR-220 ENGR-301 MATH-202. (Required, Previous). Credit Hours: Min: 4; Max: Description: An overview of manufacturing processes primarily for metals and alloys, focusing on fabrication and joining processes. Emphasis will be placed on process capabilities and limitations, with calculation of process parameters for select processes. Also includes topics […]