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Course Criteria
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3.00 Credits
Development of an independent research project with the approval of a department member who directs the progress and evaluates the results. Because of the expectation of high quality for the project, the student will present it orally at a department symposium and will submit a final, revised, written copy to the department is restricted to senior English majors by invitation only.
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2.00 Credits
This course serves as an introduction to the field of engineering and engineering careers, and introduces students to engineering issues such as ethics, communication, leadership and project management. The goal of this course is to prepare students for careers in engineering by exposing them to the fundamental engineering design tasks and activities, and participating in design projects using the engineering design process. Topics covered include computer aided design of components and assemblies, systems design, software applications, engineering documentation, and project management. Students may take ENGR 150 in their 1st or 2nd year as long as they are full-time students enrolled in an Engineering, Science or Mathematics program, or by permission of instructor. 2 Lecture Hours.
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3.00 Credits
This course focuses on the specification and design of engineering systems, expanding on the system engineering fundamentals covered in in ENGR 150. One of the goals of this course is to further develop within students the ability to 'think like an engineer', by critically analyzing engineering problems and developing creative solutions. By participating in design challenges, students will develop skills related to developing alternative design solutions, applying foundational scientific and mathematical principles, functioning within a team environment and communicating effectively. Special emphasis is placed on the use of sensors and actuators, graphical user interfaces, and system software development. Students will attend laboratory sessions that incorporate developing and analyzing software simulations and electro-mechanical systems as assigned, and will culminate with student generated solutions to complex system designs. Prerequisite: ENGR 150. 3 Lecture Hours and 3 Project Hours.
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1.00 Credits
No course description available.
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3.00 Credits
This course is an introduction to the practice of problem solving using spreadsheets and MATLAB, with an emphasis on the types of problems encountered in science and engineering. Topics include problem solving, control structures, simple data structures, basic numerical algo-rithms, and data visualization and analysis, with particular emphasis on using the extensive MATLAB libraries for solving these types of problems. Pre/co-requisite: Math 129. 3 Lecture Hours and 2 Laboratory Hours
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1.00 Credits
This course is an introduction to the practice of problem solving using spreadsheets and MATLAB, with an emphasis on the types of problems encountered in science and engineering. Topics include problem solving, control structures, simple data structures, basic numerical algo-rithms, and data visualization and analysis, with particular emphasis on using the extensive MATLAB libraries for solving these types of problems. Pre/co-requisite: Math 129. 3 Lecture Hours and 2 Laboratory Hours
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3.00 Credits
A basic in fluid mechanics and the properties of fluids in engineering. Topics to be covered include fluid properties, experiment design, scaling analysis, hydrostatics, the Navier-Stokes equations, Reynolds Transport Theorem, and Bernoulli's equation. Prerequisite: PHYS 241, MATH 231, and MATH 238, or permission of instructor. 3 lecture hours per week and 3 laboratory hours every two weeks.
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0.50 Credits
No course description available.
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3.00 Credits
A detailed exploration of the issues associated with managing projects (introduced in ENGR 150), and the use of software to monitor and control project execution. The course will also explore of the costs, profits and risks associated with investments in projects and new product initiatives. Topics include risk management, depreciation, discounted cash flow, cost estimating and capital budgeting and payback. Students can gain a deeper understanding the economic considerations when choosing between alternative projects, and how to manage engineering projects. Prerequisite: ENGR 150, MATH 129 or permission of instructor. 3 Lecture Hours.
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3.00 Credits
This course examines the structures, properties, processing of engineering materials and the relationship between them. Discussion topics include physical, thermal and mechanical properties as well as strengthening and failure mechanisms of materials. Emphasis is on metals, ceramics, polymers, composites and their engineering applications. Prerequisite: CHEM 113/L, PHYS 113/L and PHYS 114/L. 3 Lecture Hours per week and 3 Laboratory Hours every two weeks.
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