Fall 2015 Course Listing for the Collaborative Engineering Program
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Fall 2015 Course Listing for the Collaborative Engineering Program – Electrical Engineering UW Fox Valley Face-to-Face Courses EE 1210 UW Fox Valley Lecture-M/W 4:30-5:50pm Lab- W 5:50-7pm U1101 Fang Yang Circuit Modeling l: 3 credits. Voltage, current, resistance, and impedance. Opamps. Phasors. Ohm's law, Kirchhoff's laws, superposition, and Thevenin's and Norton's theorems applied to the modeling of zero-order networks. Complex numbers and algebra. Prerequisite: Math 2640. F, S EE 3410 UW Fox Valley U1025 Lecture-T/TH 5pm-6:30pm U1101Lab T/TH 7pm-9pm Fang Yang Into Elec Mach & Power System: 4 credits. Introduction to electromechanics, generators, transformers, transmission lines, motors, and network analysis. Lecture, 3 hours; laboratory 2 hours. Prerequisite: Phys 2340 and GE 2930 with grade of B, or better, OR EE 2210. F, S UW Rock County Face-to-Face Courses EE 3320 UW Rock County T/TH 3:45pm-5:03pm AH10 Cindy Gao Automatic Controls**. 4 credits. Analysis and synthesis of single-input, single-output linear time-invariant systems are considered through classical Laplace transform methods such as root-locus and frequency-domain techniques. The computer simulations demonstrate practical application of the concepts. Prerequisite: EE 2220. F, S EE 3780 UW Rock County T/TH 2pm-3:18pm AH10 Cindy Gao Logic and Digital Design**. 4 credits. Introduction to digital logic. Boolean algebra. MSI and LSI. Combinational and sequential network design, prototyping, and testing. State machine design and implementation. Introduction to HDL and programmable logic devices. Prerequisite: C- or better in EE 1210 or EE 1020 and Computer 3230. F, S Courses Available Via Streaming Video: Course # Course Name Instructor Campus Streamed From EE 1210 Circuit Modeling I John Goomey Platteville EE 3020 Analog Electronics Mohammad Habibi Platteville EE 3210 Engineering Computations Dale Buechler Platteville EE 3320 Automatic Controls Piyare Sharma Platteville EE 3410 Intro Elec Mach & Power System Fang Yang Fox Valley EE 3780 Intro to Microprocessors Cindy Gao Rock County EE 4350 Discrete Time Control Systems Cindy Gao Rock County EE 4430 Power Electronics Gholamreza Dehnavi Platteville EE 4610 Communication Systems Phil Sealy Platteville Fall 2015 Course Listing for the Collaborative Engineering Program – Mechanical Engineering UW-Washington County Face-to-Face Courses: ME 3040 UW Washington Lecture: M/W-2pm-3:15pm 339 Guy Campbell Engineering Materials: A study of metals and polymers. Crystal structures, microstructures, molecular structures and imperfections. Relationship between structures and observed mechanical properties. Material failure. Prerequisite: CHEM 1450 or CHEM 1240Corequisite: GENENG 2340 ME 3430 UW Washington T/TH-2pm-3:15pm 339 Guy Campbell Intro to Comp Methods: An introduction to structured programming with engineering applications. Fundamental programming concepts, algorithm development, and debugging. Introduce and apply concepts in linear algebra to engineering problems in statics, dynamics and other professional engineering courses. Problems include solving systems of linear equations, root finding, eigenvalues and eigenvectors, and regression. Corequisite: MATH 3630 ME 3830 UW Washington M/W-3:30-4:45pm 339 Guy Campbell Mechanisms and Machines: Design and analysis of mechanisms and machines. A study of simple machines such as linkages, geared systems, and cam-follower systems. Topics include mechanism motion and performance (position, velocity, acceleration, force transmission, etc.), actuators, and design considerations to improve machine performance. The use of a customer-based, systematic design process to design and develop a working mechanism. Prerequisite: A "C-" or better in GENENG 2230 (or ENGRPHYS 3420) and GENENG2030 Fall 2015 Course Listing for the Collaborative Engineering Program – Mechanical Engineering UW-Fox Valley Face-to-Face Courses: ME 3040 UW Fox Valley M/W 5pm-7pm U1102 Mike Zampaloni Engineering Materials: A study of metals and polymers. Crystal structures, microstructures, molecular structures and imperfections. Relationship between structures and observed mechanical properties. Material failure. Prerequisite: CHEM 1450 or CHEM 1240Corequisite: GENENG 2340 ME 3430 UW Fox Valley T/TH 4:30-6:30pm U1101 Ranen McLanahan Intro to Comp Methods: An introduction to structured programming with engineering applications. Fundamental programming concepts, algorithm development, and debugging. Introduce and apply concepts in linear algebra to engineering problems in statics, dynamics and other professional engineering courses. Problems include solving systems of linear equations, root finding, eigenvalues and eigenvectors, and regression. Corequisite: MATH 3630 ME 3330 UW Fox Valley T/TH 4:30-6pm U 1102 Mike Zampaloni Design of Machine Elements: Nonstandard loading, deflection analysis, failure theories for static and cyclic loading followed by safety considerations. Design and selection of a wide range of machine elements such as fasteners, springs, shafts, bearings and gears. Dimensioning, fits and tolerances and design communication. Open-ended design project. Prerequisite: MECHENG 3040 and “C-” or better in GENENG 2030 and GENENG 2340 ME 3720 UW Fox Valley T/TH 6:45-9:00 U 1102 Ranen McLanahan Mechanical Systems Lab: Introduction to engineering laboratory equipment, experimental procedures, report writing, automated data acquisition, including computer programming, and statistical analysis. Emphasis is on the experimental analysis of mechanical systems, including topics such as vibrations, strain gauges, and DC motors, along with the electronics used to instrument and measure these systems. Prerequisite: MATH 4030 Corequisite: MECHENG 3030 ME 3830 UW Fox Valley M/W 7:15-9:15 U 1102 Mike Zampaloni Mechanisms and Machines: Design and analysis of mechanisms and machines. A study of simple machines such as linkages, geared systems, and cam-follower systems. Topics include mechanism motion and performance (position, velocity, acceleration, force transmission, etc.), actuators, and design considerations to improve machine performance. The use of a customer-based, systematic design process to design and develop a working mechanism. Prerequisite: A "C-" or better in GENENG 2230 (or ENGRPHYS 3420) and GENENG2030 ME 4730 UW Fox Valley M/W 4:45-6:15 U 1025 Ranen McLanahan Thermo-Fluid Systems Design: A course treating the concepts of Thermodynamics, Fluid Mechanics, Heat Transfer, and mechanics in a unified presentation. Particular emphasis will be directed towards applications to actual physical systems including the gas power cycles, refrigeration cycles, heat exchangers, ideal gas mixtures, psychometrics and 1st law combustion. Some design of devices involved in these applications will also be included. Prerequisites: MECHENG 3640 and MECHENG 3300 Fall 2015 Course Listing for the Collaborative Engineering Program – Courses Available Via Streaming Video: Course Number Course Name Instructor Campus Streamed From ME 3040 ME 3430 ME 3330 ME 3830 ME 4730 ME 4820 Engineering Computations Intro to Comp Methods Design of Machine Elements Mechanisms & Machines Thermo-Fluid Design Advanced Manufacturing Guy Campbell V. Gnaneswaran Mike Zampaloni Guy Campbell Ranen McLanahan John Obielodan Washington County Platteville Fox Valley Washington Fox Valley Platteville
