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Course Criteria
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3.00 Credits
This is a course for students with no electrical engineering experience. Survey topics include electrical energy sources, DC circuits, resistive networks, network theorems, inductance, capacitance, natural and step responses of RL, RC, and RLC circuit, sinusoidal steady state analysis, Three-phase circuits, computer circuit analysis, non-linear, active components such as diodes, transistors (both bipolar and MOSFET), and operational amplifiers. Graduate students will be required to complete a case study or other individualized advanced activity that undergraduate students will not be required to complete.
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3.00 Credits
This is a course for students with no electrical engineering experience. Survey topics include electrical energy sources, DC circuits, resistive networks, network theorems, inductance, capacitance, natural and step responses of RL, RC, and RLC circuit, sinusoidal steady state analysis, Three-phase circuits, computer circuit analysis, non-linear, active components such as diodes, transistors (both bipolar and MOSFET), and operational amplifiers. Graduate students will be required to complete a case study or other individualized advanced activity that undergraduate students will not be required to complete.
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3.00 Credits
The methods used to plan and control the efficient and effective use of equipment, tooling, people, materials, and other resources to manufacture products. This will lead to the examination of the fundamental theories, practices, and methods for the design of manufacturing and service facilities to enable productive flow of goods and services. Emphasis is placed on applied exercises utilizing spreadsheet and CAD software that culminates in a semester project. Graduate students will be required to complete a case study, or research project not required of undergraduate students.
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3.00 Credits
The methods used to plan and control the efficient and effective use of equipment, tooling, people, materials, and other resources to manufacture products. This will lead to the examination of the fundamental theories, practices, and methods for the design of manufacturing and service facilities to enable productive flow of goods and services. Emphasis is placed on applied exercises utilizing spreadsheet and CAD software that culminates in a semester project. Graduate students will be required to complete a case study, or research project not required of undergraduate students.
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3.00 Credits
A comprehensive study of world class manufacturing. Topics include Just-In-Time production, Total Quality Control, Total Productive Maintenance, and Total Employee Involvement. Manufacturing systems are designed and developed and trial runs are conducted and evaluated. Students will be required to conduct an analysis of a real world case relevant to the course. Graduate students will be required to complete a case study or other individualized advanced activity that undergraduate students will not be required to complete.
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3.00 Credits
A comprehensive study of world class manufacturing. Topics include Just-In-Time production, Total Quality Control, Total Productive Maintenance, and Total Employee Involvement. Manufacturing systems are designed and developed and trial runs are conducted and evaluated. Students will be required to conduct an analysis of a real world case relevant to the course. Graduate students will be required to complete a case study or other indivudualized advanced activity that undergraduate students will not be required to complete.
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3.00 Credits
The design, operation, and environmental and socio-economic impact of renewable energy systems will be presented with an engineering emphasis. Additionally, cycle evaluation and analysis of the renewable energy systems, the efficiency and power output of renewable energy systems, their benefits and costs will be determined. Graduate students will be required to complete an additional design project that involves a class presentation with a more advanced technical analysis.
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3.00 Credits
The design, operation, and environmental and socio-economic impact of renewable energy systems will be presented with an engineering emphasis. Additionally, cycle evaluation and analysis of the renewable energy systems, the efficiency and power output of renewable energy systems, their benefits and costs will be determined. Graduate students will be required to complete an additional design project that involves a class presentation with a more advanced technical analysis.
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1.00 - 3.00 Credits
This course is scheduled on an infrequent basis to explore special areas in applied engineering. Graduate students will be required to complete a case study, or research project not required of undergraduate students.
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1.00 - 3.00 Credits
This course is scheduled on an infrequent basis to explore special areas in applied engineering. Graduate students will be required to complete a case study, or research project not required of undergraduate students.
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