Engineering (ENGR)

ENGR 101 Introduction to Engineering1 Credit

Facets of engineering. Includes history of the profession, mechanical engineering and mechanical technology curriculum, industries in which engineers practice, and expectations and tools for academic success. Introduces engineering tools used in later courses. Hands-on experiences, visiting industry, oral presentations, meeting faculty and practicing professions.

ENGR 125 Computer-Aided Design and Fabrication3 Credits

Introduces engineering design graphics. Includes learning a contemporary computer-aided design (CAD) software application and relevant engineering graphics concepts, such as orthographic projection, sections, engineering drawing practices, geometric dimensioning and tolerancing, and an introduction to manufacturing methods. Entails a final design project using rapid prototyping.

ENGR 140 First-Year Engineering Project3 Credits

Provides first-year engineering students with the opportunity to apply mathematic and scientific skills in interdisciplinary engineering projects. Students work in teams to design and build engineering projects under the guidance of engineering faculty. Prototype projects are exhibited at an end-of-semester design expo.

Prerequisites: MATH 119 or higher.

ENGR 196 Topics:1-3 Credits

Course may be taken multiple times up to maximum of 15 credit hours.

ENGR 224 Materials Science2 Credits

Structure, properties, and processing of metallic, polymeric, ceramic, and composite materials. Perfect and imperfect solids; phase equilibria; transformation kinetics; mechanical behavior; material degradation. Approach incorporates both materials science and materials engineering components.

Prerequisites: CHEM 151/CHEM 151L and PHYS 131/PHYS 131L.

Corequisites: ENGR 224L.

ENGR 224L Materials Science Laboratory1 Credit

Lab component for ENGR 224.

Prerequisites: CHEM 151/CHEM 151L and PHYS 131/PHYS 131L.

Corequisites: ENGR 224.

ENGR 225 Introduction to Manufacturing3 Credits

Principles, processes, and problems associated with the conversion of engineered materials into useful goods. Fundamentals of geometric specification, casting, machining, plastic deformation, bulk deformation, joining processes, and additive processes for metals, plastics, ceramics, and composites.

Prerequisites: ENGR 224.

Fees: Yes.

ENGR 261 Statics and Structures3 Credits

Covers statics of particles, equivalent force systems, rigid bodies, equilibrium of rigid bodies in two and three dimensions, analysis of truss and frame structures, uniaxially-loaded members, deformation and stress, distributed force systems, friction. Lectures and homework assignments involve computer work and hands-on laboratory work documented by written reports.

Prerequisites: MATH 136 or MATH 152, and PHYS 131/PHYS 131L.

ENGR 263 Mechanics of Solids3 Credits

Covers shear force and bending moment, torsion, stresses in beams, deflection of beams, matrix analysis of frame structures, analysis of stress and strain in 2-D and 3-D (field equations, transformations), energy methods, stress concentrations, and columns. Lectures and homework assignments involve computer work and hands-on laboratory work documented by written reports.

Prerequisites: ENGR 261.

ENGR 305 Engineering Economics & Ethics2 Credits

Applications of economics, statistics, and ethics for mechanical engineers. Topics include cost concepts and design economics, money-time relationships, and comparison of alternatives. Engineering ethics includes personal vs. professional ethics, ethical problem-solving techniques, rights and responsibilities of engineers, and whistle-blowing.

Prerequisites: ENGR 101, ENGR 140, and MATH 119, MATH 135, or MATH 151.

ENGR 312 Engineering Thermodynamics3 Credits

An introductory course in thermodynamics, the science of heat energy conversion. Develops understanding of energy, heat, work, efficiency, and ideal thermodynamic cycles. Teaches first and second laws of thermodynamics and perfect gas law.

Prerequisites: MATH 136 or MATH 152, and PHYS 131/PHYS 131L.

ENGR 317 Fundamentals of Circuits and Electronics2 Credits

Introduction to resistive circuits, capacitors, inductors, transient analysis, sine waves, AC circuit analysis, resonance, and transformers.

Prerequisites: MATH 136 or MATH 152, and PHYS 131/PHYS 131L.

Corequisites: ENGR 317L.

ENGR 317L Fundamentals of Circuits and Electronics Laboratory1 Credit

Lab component required for ENGR 317.

Prerequisites: MATH 136 or MATH 152, and PHYS 131/PHYS 131L.

Corequisites: ENGR 317.

ENGR 321 Fluid Mechanics3 Credits

Covers fluid properties, laws of fluid statics and fluid dynamics, measurement of flow, viscous flow, laminar and turbulent flow, flow in ducts, forces due to fluid motion, and fluid machinery.

Prerequisites: MATH 152 or MATH 136, and PHYS 131/PHYS 131L.

ENGR 325 Component Design3 Credits

Knowledge and skills developed in preceding courses are extended and applied to design and selection of machine elements and machines. Attention is given to functional requirements, methods of manufacture, choice of materials and economic factors.

Prerequisites: ENGR 224 and ENGR 263.

ENGR 336 Heat and Power3 Credits

Discussion of major modes of heat transfer. Includes steady and transient conduction, internal and external convection, and radiation with emphasis on industrial applications. Heat exchanger and boiler analysis and related codes and standards discussed.

Prerequisites: ENGR 312 and ENGR 321.

ENGR 343 Dynamics3 Credits

Kinematics of particles and rigid bodies. Kinetics of particles and rigid bodies in plane motion, including Newton's second law, work and energy, impulse and momentum.

Prerequisites: ENGR 261.

ENGR 345 Engineering Integration I3 Credits

First course in a design sequence integrating concepts from the mechanical engineering technology curriculum. Emphasis on laboratory experience and the design, analysis, and testing of mechanical systems. Team project work on "design-and-build" projects will require manufacture of mechanical systems and/or electronic circuits.

Prerequisites: ENGR 224, ENGR 263, MAMT 106, and CSCI 130.

ENGR 353 Exploring Entrepreneur Opportunities3 Credits

Introduction to innovation and opportunity recognition, including development of business ideas, business model validation and business feasibility analysis.

ENGR 385 Engineering Integration II3 Credits

Second course in a design sequence integrating concepts from the mechanical engineering technology curriculum. Emphasis on laboratory experience and the design, analysis, and testing of mechanical systems. Team project work on "design-and-build" projects will require manufacture of mechanical systems and/or electronic circuits.

Prerequisites: ENGR 345.

ENGR 395 Independent Study1-3 Credits

Course may be taken multiple times up to maximum of 6 credit hours.

ENGR 396 Topics1-3 Credits

Course may be taken multiple times up to maximum of 15 credit hours.

ENGR 397 Structured Research1-3 Credits

ENGR 399 Internship1-12 Credits

Course may be taken multiple times up to maximum of 15 credit hours.

ENGR 401 Professionalism Seminar1 Credit

Preparation for a career in the engineering profession. Topics in professionalism, ethics, resume building, innovation, internships, and current engineering issues explored.

Prerequisites: Junior standing or higher.

ENGR 425 Advanced Manufacturing3 Credits

Use of cutting edge materials and emerging capabilities that utilize the coordination of information, automation, computation, software, sensing and networking. Includes discussion of product data management, flexible manufacturing, manufacturability, and product life-cycle management.

Prerequisites: ENGR 225, ENGR 305, and STAT 305.

ENGR 426 Manufacturing Processes and Systems3 Credits

A senior level course that examines widely used manufacturing processes for metals, polymers, microelectronics and also exposes students to principles and practices of world class manufacturing. Lecture topics include material properties; engineering materials; casting, molding and related processes; metal forming and sheet metal working; material removal processes; joining and assembly processes; electronics manufacturing technology; and principles and practices of world class manufacturing. Manufacturing economic considerations. Influence of product design on process selection.

Prerequisites: ENGR 224 and STAT 200.

ENGR 427 Engineering Measurements2 Credits

Methods of experimentation and data analysis. Specific skills used in planning an experiment, applying sound procedures, keeping proper records, and communicating results orally, with posters and in written reports developed.

Prerequisites: ENGR 263, ENGR 317, STAT 305, and ENGL 325.

ENGR 435 Industrial Controls3 Credits

Fundamentals of control of manufacturing processes. Applications of relay logic, input/output devices, and programmable logic controllers (PLC). Design of complete control circuits, selection of components, and cost estimation. PLC programming for discrete event control and for analog applications.

Prerequisites: ENGR 317.

ENGR 436 Fluid & Electric Power Systems3 Credits

A mechanical approach to industrial power systems. Applications emphasize the selection and function of hardware and interfacing of hydraulic, pneumatic and electric systems with mechanical, fluidic and electrical/electronic controls. Topics covered include transformers, motors, generators, motor controls, and protective devices.

Prerequisites: ENGR 321 and ENGR 435.

ENGR 445 MET Design Project I3 Credits

The first of a two-course comprehensive group capstone design experience, focusing on the design proposal. This sequence applies material from prior course work, along with concepts of project management, problem definition; determining design requirements, design optimization, engineering analysis, proof-of-concept prototype, CAD drawings. Students make several oral design reviews, a final design presentation, and prepare a written report.

Prerequisites: ENGR 140, ENGR 312, ENGR 321, ENGR 325, MAMT 115, and ENGL 325.

ENGR 446 Writing for Design Projects1 Credit

Communication of professional writing to the technical and non-technical audience. Skills are developed to analyze rhetorical situations and compose documents that achieve a specific purpose and meet the needs of a particular audience. Writing with clarity, conciseness and correctness will be emphasized.

Corequisites: ENGR 485.

ENGR 455 Fluid Power Systems3 Credits

Coverage of the fundamentals of hydraulic and pneumatic systems and their components, fluid power circuit design, analysis, and troubleshooting for industrial applications, introduction to electro-pneumatics.

Prerequisites: ENGR 321.

ENGR 460 Energy Systems3 Credits

Discussion of conventional, alternative and renewable energy systems, such as wind, solar, clean coal, and geothermal. Challenging energy problems relevant to the industry presented and analyzed.

Prerequisites: ENGR 312 and ENGR 321.

ENGR 465 Electric Power Systems3 Credits

Basic understanding of electric power systems; generation, transmission, distribution and consumption. Review of AC circuit analysis in single and three phase systems using time domain and phasor representation. Includes magnetic circuits, transformers and renewable energy generation from photovoltaic cells. Introduces electromechanical energy conversion from experiments with induction and synchronous motors/generators, and includes photovoltaic panels.

Prerequisites: ENGR 317.

ENGR 481 Thermal-Fluid Systems Analysis Using CFD3 Credits

Presentation of advanced computer simulation tools for analysis of thermal-fluid problems (fluid mechanics, thermodynamics, and heat transfer). Fundamentals of CFD (computational fluid dynamics) such as grid generation, solution techniques and convergence, modeling and simulation, and analysis of results for representative industrial problems discussed.

Prerequisites: CSCI 130 and ENGR 336.

ENGR 485 MET Design Project II3 Credits

Second part of a two-course capstone design experience. Refinement of prototype, design optimization, fabrication, testing and evaluation. Students orally present the final design, prepare a written report and operation manual for the product.

Prerequisites: ENGR 445.

ENGR 495 Independent Study1-4 Credits

Course may be taken multiple times up to maximum of 6 credit hours.

ENGR 496 Topics1-3 Credits

Course may be taken multiple times up to maximum of 15 credit hours.

ENGR 497 Structured Research1-3 Credits

Engineering research under the direct guidance of a faculty member. Designed for junior and senior level students.

Prerequisites: Permission of instructor.