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C OLLEGE OF E NGINEERING<br />
EME3033<br />
EME3034 KINEMATICS &<br />
DYNAMICS OF MACHINES<br />
Prerequisite: EME3043.<br />
Mechanisms; linkages, cams,<br />
gears and gear trains; displacement,<br />
velocity; acceleration, syn<strong>the</strong>sis<br />
of mechanisms. Dynamic<br />
force analysis of machines including<br />
general linkage, cams, slider<br />
cranks, and space mechanisms.<br />
Syn<strong>the</strong>ses of dynamically constrained<br />
components. Lect. 4 hrs.<br />
4 hours credit<br />
EME3043 DYNAMICS<br />
Prerequisite: EGE2013.<br />
Kinematics and kinetics of particles,<br />
rigid bodies, and systems of<br />
particles and rigid bodies will be<br />
analyzed by <strong>the</strong> classical methods;<br />
vibrations of single degree of<br />
freedom systems. Lect. 3 hrs.<br />
3 hours credit<br />
EME4003 DESIGN OF<br />
MACHINE ELEMENTS<br />
Prerequisite: EME3013. Student<br />
needs a passing grade in<br />
EME4003 before enrolling in<br />
EME4212. Application of <strong>the</strong><br />
principles of solid mechanics and<br />
o<strong>the</strong>r engineering sciences <strong>to</strong> <strong>the</strong><br />
efficient design of simple machine<br />
elements such as fasteners, gears,<br />
springs, and simple structures.<br />
Mechanical failure criteria and <strong>the</strong><br />
effects of fatigue and impact loading<br />
on components are presented.<br />
Lect. 3 hrs. 3 hours credit<br />
EME4013 HEAT TRANSFER<br />
Prerequisites: EGE3003;<br />
EME3024 recommended, but may<br />
be a co-requisite. Steady and transient<br />
conductive heat transfer;<br />
radiative heat transfer, forced<br />
and free convection heat transfer,<br />
psychometrics. Design of heat<br />
exchangers. Lect. 3 hrs.<br />
3 hours credit<br />
EME4123 AUTOMATED<br />
MANUFACTURING<br />
SYSTEMS<br />
Prerequisite: EME3023. Over<strong>view</strong><br />
of au<strong>to</strong>mated manufacturing systems,<br />
numerical control machines<br />
and programming, adaptive<br />
control, au<strong>to</strong>mated material<br />
handling, integrated flexible manufacturing<br />
systems. Lect. 3 hours.<br />
3 hours credit<br />
EME4133 MANUFACTURING<br />
FACILITIES DESIGN<br />
Prerequisites: EME4123 and<br />
Senior standing. Design of <strong>the</strong><br />
manufacturing plant <strong>to</strong> use space,<br />
machines, material handling methods,<br />
and equipment for economical<br />
production and inspection.<br />
Lect. 3 hrs. 3 hours credit<br />
EME4143 WORLD CLASS<br />
MANUFACTURING<br />
Prerequisite: EME3023. Excelling<br />
in world class manufacturing.<br />
Concurrent engineering, product<br />
development, quality engineering,<br />
au<strong>to</strong>mated inspection and testing,<br />
statistical process control, cellular<br />
manufacturing, manufacturing<br />
cost estimating, <strong>to</strong>tal productive<br />
maintenance, agile manufacturing,<br />
quality systems standards, and<br />
<strong>to</strong>tal quality. Lect. 3 hrs.<br />
3 hours credit<br />
EME4212 ENGINEERING<br />
PROJECTS 1<br />
Prerequisites: EME3011,<br />
EME4003. Initiation of <strong>the</strong> senior<br />
design project, formal engineering<br />
proposal, oral presentation, concept<br />
development, project documentation.<br />
Student project teams<br />
work closely with a faculty advisor.<br />
2 hours credit<br />
EME4222 ENGINEERING<br />
PROJECTS 2<br />
Prerequisite: EME4212.<br />
Completion of <strong>the</strong> senior project,<br />
formal final report, oral presentation,<br />
pro<strong>to</strong>type development, fabrication,<br />
testing and evaluation.<br />
Student project teams work closely<br />
with a faculty advisor <strong>to</strong> meet<br />
project objectives. 2 hours credit<br />
EME4243 FINITE<br />
ELEMENT ANALYSIS<br />
Prerequisite: EME3013.<br />
Introducing <strong>the</strong> <strong>the</strong>ory and application<br />
of <strong>the</strong> FEA method <strong>to</strong> <strong>the</strong><br />
stress analysis and design of<br />
mechanical systems. Matrix methods<br />
in structural analysis are used.<br />
Element and structural stiffness<br />
matrices are developed and used<br />
<strong>to</strong> solve for displacement, strains,<br />
and stresses in trusses, beams, and<br />
plane problems. Boundary conditions<br />
and modeling consideration.<br />
Introduction <strong>to</strong> general purpose<br />
FEA software. Lect. 2 hrs.,<br />
Lab. 2 hrs. 3 hours credit<br />
EME4263<br />
MICROMECHANICS<br />
OF MATERIALS<br />
Prerequisites: EGE1023,<br />
EME3013. Mechanical behavior<br />
of materials, emphasizing <strong>the</strong><br />
effects of microstructure on properties.<br />
Models for deformation,<br />
fracture, and fatigue. Analytical<br />
and predictive methods useful <strong>to</strong><br />
<strong>the</strong> design engineer. Materials<br />
testing and proper use of materials<br />
property data. Lect. 3 hrs.<br />
3 hours credit<br />
EME4313 FUNDAMENTALS<br />
OF QUALITY SYSTEMS<br />
Prerequisite: Senior standing,<br />
EME3023, MCS3403.<br />
Considerations for developing and<br />
implementing effective quality<br />
systems. An over<strong>view</strong> of <strong>the</strong> fundamentals<br />
of statistical principles<br />
and analysis of process variability,<br />
sampling techniques, control<br />
charts, ISO 9000/QS 9000 and<br />
process improvement. Lect. 3 hrs.<br />
3 hours credit<br />
EME4333 SAFETY<br />
ENGINEERING<br />
Prerequisite: Senior standing.<br />
Introduction <strong>to</strong> <strong>the</strong> basic principles<br />
of safety, analytical approaches<br />
<strong>to</strong> address concerns in <strong>the</strong><br />
design and operation of products,<br />
equipment, facilities, environmental<br />
concerns and human fac<strong>to</strong>rs.<br />
Legal aspects of safety and government<br />
regulations emphasized.<br />
Lect. 3 hrs. 3 hours credit<br />
EME4363 THERMAL FLUID<br />
SYSTEM DESIGN<br />
Prerequisites: EGE3003,<br />
EME3024, EME4013. Students<br />
work individually or in small<br />
groups <strong>to</strong> design systems and/or<br />
devices. Piping systems, heat<br />
exchangers, prime movers, system<br />
simulation and fluid transients.<br />
Lect. 3 hrs. 3 hours credit<br />
EME4402 MECHANICS<br />
LABORATORY<br />
Prerequisites: EME3013,<br />
EME3043. Illustrates <strong>the</strong> principles<br />
of mechanics (dynamics,<br />
mechanics of materials) and introduces<br />
<strong>the</strong> <strong>to</strong>ols and techniques of<br />
experimental mechanics.<br />
Lect. 1 hr., Lab. 2 hrs.<br />
2 hours credit<br />
EME4412 THERMAL<br />
SCIENCE LABORATORY<br />
Prerequisites: EME3024,<br />
EME4013. The study of heat<br />
transfer, fluid flow, <strong>the</strong>rmodynamics,<br />
data acquisition, and control.<br />
Experiments illustrate each <strong>to</strong>pic<br />
and reports are written for each<br />
experiment. Lect. 1 hr., Lab. 2 hrs.<br />
2 hours credit<br />
EME4603 INTRODUCTION<br />
TO MECHANICS (Non-ME)<br />
Prerequisites: EGE2013, not open<br />
<strong>to</strong> mechanical engineering<br />
majors. Exposes non-mechanical<br />
engineering students <strong>to</strong> <strong>the</strong> principles<br />
of engineering mechanics.<br />
Dynamics, strength of materials,<br />
gears, and vibrations. Lect. 3 hrs.<br />
3 hours credit<br />
U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7<br />
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