ENGR 356 – Quality Control
Prerequisites/Corequisites: Take ENGR-320. (Required, Previous). Credit Hours: Min: 3; Max: Description: Study of statistical quality control and fundamentals of design of experiments. Applications in manufacturing and service industry. Topics include: process variability, six sigma, control charts, process capability, analysis of variance, hypothesis testing, factorial designs.
ENGR 370 – Fluid Mechanics
Prerequisites/Corequisites: Take ENGR-250 ENGR-301 MATH-301 MATH-306 PHYS-200. (Required, Previous). Credit Hours: Min: 3; Max: Description: The course introduces the concepts and applications of fluid mechanics and dimensional analysis with an emphasis on fluid behavior, internal and external flows, applications of conservation equations to different engineering systems, and analysis of engineering applications of incompressible pipe systems.
ENGR 373 – Operations Research
Prerequisites/Corequisites: Take ENGR-355. (Required, Previous). | Take MATH-304 PHYS-220. (Required, Previous or concurrent). Credit Hours: Min: 3; Max: Description: This course exposes students to linear and integer programming using optimization (e.g., Simplex, Excel Solver, CPLEX) and heuristic techniques (e.g., Greedy, Genetic). A wide array of standard optimization problems such as Knapsack, Traveling Salesman and Cutting […]
ENGR 400 – Thermodynamics and Heat&Mass Transfer
Prerequisites/Corequisites: Take ENGR-250 ENGR-370 PHYS-200 MATH-301. (Required, Previous). Credit Hours: Min: 4; Max: Description: The course covers applications of the laws of thermodynamics to closed and open systems. Topics include steady one-dimensional conduction, lumped parameter analysis, convection, radiation, and diffusion.
ENGR 330 – Engineering Economy
Prerequisites/Corequisites: Take ENGR-250 or ENGR-252. (Required, Previous). Credit Hours: Min: 3; Max: Description: . Concepts and techniques of analysis for evaluating the value of products/services, projects, and systems in relation to their cost. A major objective of this course is to develop the students understanding of economic equivalence, the time value of money, financial uncertainty […]
ENGR 355 – Production & Operations Management
Prerequisites/Corequisites: Take ENGR-301 MATH-202. (Required, Previous). Credit Hours: Min: 3; Max: Description: Introduction to production and operations component of manufacturing and service organizations, based on the traditional and the contemporary IE standpoint. Topics include: Types of manufacturing systems, Lean Manufacturing, DMAIC, Kanban, queueing theory, and discrete event simulation.
ENGR 220 – Materials Engineering
Prerequisites/Corequisites: Take PHYS-201 CHEM-101. (Required, Previous). Credit Hours: Min: 3; Max: Description: This course is designed to introduce students to the structures and properties of metals, ceramics, polymers, and composites. In addition, students will gain an understanding of the processing and design limitations of these materials, as well as being introduced to new classes of […]
ENGR 250 – Mechanics of Materials
Prerequisites/Corequisites: Take ENGR-101 ENGR-301. (Required, Previous). | Take MATH-301. (Required, Previous or concurrent). Credit Hours: Min: 3; Max: Description: The course covers determination of stresses, deflections, and stability of deformable bodies. The course will include methods to identify, formulate, and solve problems related to the effect of forces on deformable bodies. An emphasis will be […]
ENGR 252 – Operations Analysis & Management
Prerequisites/Corequisites: Take ENGR-301 MATH-202. (Required, Previous). Credit Hours: Min: 3; Max: Description: Students are introduced to principles, tools, and models for analyzing, engineering, and managing manufacturing and service operations. The course focuses on the application of project management methods, value stream mapping, line balancing, and queuing theory for manufacturing and service industries. Emphasis is also […]
ENGR 101 – Introduction to Engineering
Prerequisites/Corequisites: Take MATH-132 or MATH-137. (Required, Previous or concurrent). Credit Hours: Min: 3; Max: Description: Introduction to the engineering profession, applications of engineering principles and approaches, integrated systems approach to problem solving, overall goals and components of the engineering programs, career opportunities, development of engineering work skills, and communication skills. In addition, the course covers […]
ELT 105 – Logic and Digital
Prerequisites/Corequisites: Credit Hours: Min: 4; Max: Description: