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Course Criteria
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1.00 Credits
This course explores the transmission of heat via conduction, convection, radiation, thermal resistance, heat exchangers, and boiling and condensation. This course applies thermodynam-ics, fluid mechanics and heat transfer to design energy systems. Prerequisite: ENGR 300/L, ME 350/L, ME 250. 3 Lecture Hours and 3 Laboratory Hours.
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3.00 Credits
An introductory course that focuses on the development of integrated mechanical systems which transduce sensor inputs into signals, transform signals using circuits, and output signals to actuators for mechanical systems. Sensor response and uncertainty, analog and digital circuits, and analysis and operation of actuators such as electric motors, solenoids, and hydraulic and pneumatic cylinders. Selection of sensors, circuits, and actuators to meet design specifications. Prerequisite: ENGR 300/L, MATH 238,PHYS 114/L, ENGR 250/L. 3 Lecture Hours and 3 Laboratory Hours.
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1.00 Credits
An introductory course that focuses on the development of integrated mechanical systems which transduce sensor inputs into signals, transform signals using circuits, and output signals to actuators for mechanical systems. Sensor response and uncertainty, analog and digital circuits, and analysis and operation of actuators such as electric motors, solenoids, and hydraulic and pneumatic cylinders. Selection of sensors, circuits, and actuators to meet design specifications. Prerequisite: ENGR 300/L, MATH 238, PHYS 114/L, ENGR 250/L. 3 lecture hours and 3 laboratory hours.
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3.00 Credits
Introduces students to fundamental concepts and considerations when designing mechanical systems. Topics to be covered include stress analysis of machine elements, failure theories and analysis, deformation and stiffness. Students will design components using CAD. Prerequisite: PHYS 242, ME 340; Co-requisite ENGR 350/L. 3 Lecture Hours and 3 Laboratory Hours.
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1.00 Credits
Introduces students to fundamental concepts and considerations when designing mechanical systems. Topics to be covered include stress analysis of machine elements, failure theories and analysis, deformation and stiffness. Students will design components using CAD. Prerequisite: PHYS 242, and ME 340/L; Co-requisite ENGR 350/L. 3 lecture hours and 3 laboratory hours.
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3.00 Credits
This is a mechanical engineering elective course. Students are required to take ME 410 in either the Fall or Spring semester of their senior year. Topics will vary based on faculty and student interests. Potential topics for this course may include: . Biomedical Engineering . Energy Systems . Process Design and Control . Mathematical Modeling Prerequisites: Senior ME Status, or permission of instructor. 3 Lecture Hours
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1.00 Credits
No course description available.
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3.00 Credits
These are mechanical engineering elective courses. Students are required to take either ME 410 in the Fall semester of their senior year, or ME 411 in the Spring semester. Topics will vary based on faculty and student interests. Potential topics for these courses may include: .Biomedical Engineering .Energy Systems .Process Design and Control .Mathematical Modeling Prerequisites: Senior Status, or permission of instructor. 3 lecture hours
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3.00 Credits
This course focuses on how systems behave over time, how to determine the characteristics of system behavior, and how to use mathematical analysis to make design choices about systems. Students will analyze mechanical, electrical, and fluid systems, as well as systems that are combined from these domains, such as electric, hydraulic, and pneumatic actuators. Students will use Laplace-domain representations to solve differential equations to find the response of systems over time, determine the response to periodic inputs at different frequencies, and design control systems such as proportional-integral-derivative. Prerequisite: ME 340, ME 380/L and Senior Status. 3 Lecture Hours and 3 Laboratory Hours.
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1.00 Credits
This course focuses on how systems behave over time, how to determine the characteristics of system behavior, and how to use mathematical analysis to make design choices about systems. Students will analyze mechanical, electrical, and fluid systems, as well as systems that are combined from these domains, such as electric, hydraulic, and pneumatic actuators. Students will use Laplace-domain representations to solve differential equations to find the response of systems over time, determine the response to periodic inputs at different frequencies, and design control systems such as proportional-integral-derivative. Prerequisite: ME 340, ME 380/L, and Senior Status. 3 Lecture Hours and 3 Laboratory Hours.
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