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Course Criteria
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2.00 Credits
A hands-on laboratory course designed to give students an introduction to clean room operations and micromachining technologies. Students will fabricate a variety of simple microscopic devices and investigate their mechanical behavior. Topics covered include clean rooms, optical lithography, thin fi lm materials, chemical and plasma etching, and metrology. (This class is not intended for the microelectronics major or minor). Lab 2, Credit 1
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4.00 Credits
This course gives students an opportunity to apply foundation courses in mechanical engineering to the solution of an open-ended design problem. Students will learn about project defi nition, concept development, feasibility assessment, managing design parameter tradeoffs using engineering analysis, and developing a preliminary design drawing package. Teams of students will develop their concept through the stage of working drawings, based on the ANSI standard for Geometric Dimensioning and Tolerancing. The course is intended to prepare students for future ME and multi-disciplinary design courses. (0304-214, 336, 347, 413, 415, and at least one co-op block) Lab 4, Credit 2
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4.00 Credits
This course is designed to introduce students to fundamental laboratory techniques and familiarize them with hardware and software tools. Students learn how to obtain and interpret measurements of physical parameters and properties such as temperature, pressure, and fl ow rate. Students learn how to interface a computer to physical devices such as relays and voltage output. Classroom demonstrations of MIC systems provide students with an appreciation for engineering applications. Lab 4, Credit 2
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3.00 Credits
For students majoring in industrial and systems engineering. Statistics: equilibrium, the principle of transmissibility of forces, couples, centroids, trusses, frames, machines and friction. Introduction to strength of materials: axial stresses and strains, statically indeterminate problems, torsion and bending. (1017-311) Class 3, Credit 3
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3.00 Credits
For students majoring in industrial and systems engineering. Topics include dynamics of particles and rigid bodies with an introduction to kinematics and kinetics of particles and rigid bodies, work, energy, impulse momentum and mechanical vibrations. Emphasis is on problem solving. (0304-331) Class 3, Credit 3
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4.00 Credits
This basic course treats the equilibrium of particles and rigid bodies under the action of forces. It integrates the mathematical subjects of calculus, vector algebra and simultaneous algebraic equations with the physical concepts of equilibrium in two and three dimensions. Topics include concepts of force and moment, trusses, frames, machines, friction, centroids and moments of inertia. (1016-282, or 1016-273, 1017-311) Class 4, Credit 4
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2.00 Credits
Introduces students to personal computers for solving science and engineering problems. Students also learn to interpret and analyze their results and document their solutions. The course covers principles and techniques of computer programming to analyze and solve problems and to document both numerically and graphically the results of the analysis. Programming and analysis of problems are implemented using either a spreadsheet or a symbolic algebra system with supplemental documentation and communication of results using a word processor. (Corequisite 1016-271 or 1016-281) Class 2, Lab 2, Credit 3
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2.00 Credits
A study of the application of machine tools and fabrication processes to engineering materials in the manufacture of products. Processes covered include cutting, molding, casting, forming, powder metallurgy and welding. Students do a project in the lab portion of the course. Class 3, Lab 2, Credit 4
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2.00 Credits
The structure and properties of metallic, polymeric, composite and ceramic materials as related to structural imperfections, atom movements and phase changes. Develops a basic understanding of the structure/properties relationship in materials and their behavior in service environments. (1011-208) Class 3, Lab 2, Credit 4
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4.00 Credits
A basic course in the fundamental principles of the mechanics of deformable media, including stress, strain, defl ections and the relationships among them. The basic loadings of tension, compression, shear, torsion and bending are also included. Mechanics of Materials Lab (0304-348) is to be taken concurrently with this course. (0304-336; corequisite 0304-348) Class 4, Credit 4
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