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ME 1601: Introduction to Engineering Design 2

3.00 Credits

Milwaukee School of Engineering

This course is intended to provide the student with an introduction to the process of engineering design, and the tools associated with the engineering design process. Lecture topics and laboratory exercises focus on the engineering design process, and the application of solid modeling tools and techniques inmechanical engineering design.

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ME 190: Computer Applications in Engineering I 2

3.00 Credits

Milwaukee School of Engineering

The purpose of this course is to familiarize students with themodern computer tools required for engineering practice, and teach themhow to apply these tools to solve practical engineering problems. Topics include problemformulation,model development, algorithmdevelopment, and the use of numericalmethods and computer graphics in the solution of engineering problems. Laboratory exercises will involve the use of various numerical and graphical software packages. (prereq:MA-127 or equivalent)

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ME 191: Computer Applications in Engineering II 1

2.00 Credits

Milwaukee School of Engineering

The purpose of this course is to apply themodel and algorithmdevelopmentmethods from ME-190 to hands-on "hardware-in-the-loop" applications. Applications in data acquisition,robotics andmechatronics will be emphasized. (prereq:ME-190)

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ME 205: Engineering Statics 4

4.00 Credits

Milwaukee School of Engineering

This is a study of force systems acting on bodies that are not inmotion. The course includes analysis of forces in trusses, frames andmachine components; additional topics include friction, location of centroids, and evaluation of area andmassmoments of inertia. (prereq:MA-137, PH-110 or PH-2010)

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ME 206: Engineering Dynamics 4

4.00 Credits

Milwaukee School of Engineering

This is the study ofmotion and the forces which affect themotion. This course includes the study of rectilinearmotion, curvilinearmotion, planemotion, dynamic force analysis, work and energy, and impulse andmomentum. (prereq:ME-205,MA-137)

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ME 207: Mechanics ofMaterials 3

4.00 Credits

Milwaukee School of Engineering

This is the first course in themechanics of deformable bodies. Topics include stresses and strains produced by axial loading, torsion, and bending; elastic deflections of beams; effects of combined loading; and buckling of slender columns. Laboratory topics will reinforce lecture material. (prereq:ME-205 orME-255,MA-231 orMA-226)

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ME 230: Dynamics of Systems 4

4.00 Credits

Milwaukee School of Engineering

This course is an exploration into the use ofmathematical techniques tomodel the behavior of mechanical and electrical systems. Topics will includemodeling ofmechanical and electrical components, generation of systemmodels, time domain analysis and frequency domain analysis. Both analytical and numerical solution techniques will be emphasized. (prereq:MA-235,ME-190,ME-205)

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ME 255: Engineering Statics for 0 3 Nonmechanical Engineers

3.00 Credits

Milwaukee School of Engineering

This is a study of force systems acting on bodies which are not inmotion. Includes analysis of forces, location of centroids, evaluation ofmoments of inertia. This coursemay not be taken for credit byMechanical Engineering students for whomME-205 is required. (prereq:MA 137 or MA-226, PH-110, PH-113 or PH-2010)

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ME 256: Engineering Dynamics for 0 3 Nonmechanical Engineers

3.00 Credits

Milwaukee School of Engineering

This is a study ofmotion and the forces which affectmotion; includes rectilinearmotion, curvilinearmotion, planemotion; particle force analysis, work and energy, impulse and momentum. This coursemay not be taken for credit byMechanical Engineering students for whomME-206 is required. (prereq:ME-255,MA-137 orMA-226)

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ME 257: Strength ofMaterials for 2 4 Nonmechanical Engineers

3.00 Credits

Milwaukee School of Engineering

This course is for nonmechanical engineering students. The course provides non-MEs with a background in the area of strength ofmaterials including what is required in the selection of materials tomeet actual application requirements. Subjects include the stress-strain relationship, elasticity, as well as axial, torsional and shear stresses and deformations. Interrelated laboratory experiments reinforce the concepts presented in the lecture/analysis sessions. (prereq:ME-255)

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