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MATH 499R: Senior Project in Mathematics

1.00 Credits

Brigham Young University-Idaho

Prerequisite: Consent of Instructor. Content tailored to the individual needs and interests of the students. Investigation and/ or application of mathematical principles under the guidance of a faculty mentor. (As needed)

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ME 105: Essentials of Welding

4.00 Credits

Brigham Young University-Idaho

Fee: $30.00 A course in joining processes that includes welding, standard fasteners (nuts,bolts), non-standard fasteners (inserts, blind fasteners), adhesives, foam tapes and epoxies and other processes. (Fall, Winter)

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ME 115: Computerized Technical Illustration

2.00 Credits

Brigham Young University-Idaho

This course will explore the basic system of technical illustration, the use of construction aids and grids, and special techniques in rendering an animation. Students will be introduced to 3D Solids modeling and rendering using the computer software (3D Studio VIZ R3) and animation techniques. This course is designed heavily around the use of 3D drawings. Students will learn to accurately portray any given object three dimensionally (both manually and using the computer). (Fall, Spring)

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ME 131: Manufacturing Processes I

2.00 Credits

Brigham Young University-Idaho

Integration of manufacturing processes. Emphasis on principles of mechanical mass reducing and surface fi nishing processes, machining parameters, measurement, and material selection. (Fall, Winter, Spring)

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ME 132A: Manufacturing Processes II-CNC Lab Emphasis

2.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 131, ME 172 Integration of manufacturing and engineering design. Introduction to the engineering design process through the development of industry related engineering projects. In-depth instruction on manufacturing processes with major focus on CNC processes. (Fall, Winter, Spring)

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ME 132B: Manufacturing Processess II-Joining Processes Lab Emphasis

2.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 131, ME 172 Integration of manufacturing and engineering design. Introduction to the engineering design process through the development of industry related engineering projects. In-depth instruction on manufacturing processes with major focus on Joining Processes. (Fall, Winter, Spring)

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ME 142: Engineering Computation I

2.00 Credits

Brigham Young University-Idaho

Prerequisite: FDMAT 112 This course provides an introduction to computation in the context of engineering problem solving. Fundamental principles of computation, such as computer representation of numbers and round-off error, are presented. Basic numerical methods, including numerical integration, differentiation, and root fi nding, are covered. An introduction to computer programming, including fl owcharts, loops, condition statements, and functions, is given. Emphasis is placed on using MS Excel to solve computational problems, and using VBA within Excel to create computer programs. A brief introduction to commerical math software packages is also given. (Fall, Winter, Spring)

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ME 172: Visualization in Engineering Design

3.00 Credits

Brigham Young University-Idaho

Fundamentals of 3D parametric modeling and engineering design concepts including: orthographic projection, auxiliary views, sectioning, dimensions, working drawings, assembly modeling, parametric modeling fundamentals, and standards (ANSI and ISO). Instruction in computer-aided design tools with application to Mechanical Engineering. (Fall, Winter, Spring)

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ME 201: Engineering Mechanics:Statics

2.00 Credits

Brigham Young University-Idaho

Prerequisite: FDMAT 112 Concepts of forces, moments and other vector quantities; free body diagrams; particle and rigid body statics; trusses, frames and machines; friction; centroids and moments of inertia. Vector analysis used. (Fall, Winter, Spring)

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ME 202: Strength of Materials

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 201 Review of equations of static equilibrium; introduction to engineering stress and strain; thermal loading; stress distributions resulting from axial, torsional, and transverse (beam) loadings; combined loading problems; stress and strain transformation, Mohr's circle; defl ection of axial members, torsional members, and beams including statically indeterminate structures; column buckling. (Fall, Winter, Spring)

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