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Course Criteria
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6.00 Credits
This course builds on course work introduced in prior physics and automated system courses. Students learn about mechanical components found in transmission pathways of automated systems, including drive mechanisms, pallet changers, shifters, conveyers, gears and linkages. Students analyze factors contributing to mechanical failure such as load and torque. Effects of changes in pressure, direction, force, speed and other physical parameters are also studied. Students work with simulated modules and automated systems with mechanical components. (0885-201; corequisite: 0891-220) Class 1, Lab 6, Credit 3 (W)
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6.00 Credits
Students use, maintain, develop and debug robotic programs. Course content requires that students learn the concepts related to robotic programming and interfacing as well as the applications that use robotics. Using lab experiments and robotics program development software, students learn to set up, install, download, diagnose, write, manipulate and test programs in automated manufacturing environments. (0891-220) Class 2, Lab 6, Credit 4 (S)
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6.00 Credits
This course builds on the system-level skills developed in Automated Systems I and Automated Systems Troubleshooting I. Students encounter advanced robotic operations, process and equipment control using programmable logic controllers and material transport systems as they learn to work with product changeovers relative to upgrading or retooling a fl exible manufacturing cell. Human machine interfaces (HMI) and electronic operator interfaces (EOI) are used for machine user interfacing. (0891-220, 314) Class 2, Lab 6, Credit 4 (S)
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6.00 Credits
This advanced troubleshooting course not only incorporates all the maintenance and troubleshooting skills developed in Automated Systems Troubleshooting I for basic system maintenance, diagnosis and repair but also introduces maintenance and troubleshooting of the more diffi cult and advanced system areas such as networked controllers, vision systems, advanced robotics, programmable logic controllers, and other system and subsystem components where hardware and software are heavily integrated for system operation. (0891-320) Class 2, Lab 6, Credit 4 (F)
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3.00 Credits
Credit variable (F, W, S)
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3.00 Credits
Credit variable (F, W, S)
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2.00 Credits
An introduction to academic and student life in the biological sciences department. Class 2, Credit 1 (F)
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3.00 Credits
A study of the characteristics and origin of life; basic principles of modern cellular biology, including cell organelle structure; chemical basis and functions of life, including enzyme systems, cellular respiration and photosynthesis; nutrient procurement in plants and animals. (High school biology and chemistry) Class 3, Credit 3 ( F, SU)
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3.00 Credits
A study of the physiological processes of gas exchange, internal transport, osmoregulation, excretion and hormonal control in plants and animals; nervous system and behavior in animals. (1001-201 or permission of instructor) Class 3, Credit 3 ( W, SU)
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3.00 Credits
A study of cellular and organismal reproduction, the principles of genetics and developmental biology, and an introduction to evolution and ecology. (1001-202 or permission of instructor) Class 3, Credit 3 (S, SU)
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