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Course Criteria
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3.00 Credits
The study of fluid mechanics is essential in analyzing any physical system involving liquids and gases. The properties of a fluid and the concepts of fluid statics, the integral and differential analyses of fluid motion, and incompressible flow are presented. Applications of these concepts to various engineering situations, such as propulsion systems, aerodynamics, and piping systems, are examined. Corequisite: MATH 232. Prerequisites: ENGS 221, 345. Three Credits Krupczak/Misovich Spring Semester
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3.00 Credits
This course introduces the fundamental concepts of heat transfer. The three modes of heat transfer are addressed: conduction, convection, radiation. Both steady state and time varying situations are considered. The energy balance is applied extensively, and physical and mathematical principles underlying the concepts of heat transfer are presented. Rectangular, cylindrical and spherical coordinate systems are used in the analysis. Various aspects of heat transfer phenomena are studied in the laboratory. Corequisite: ENGS 346. Prerequisite: ENGS 345. Three Credits Misovich Spring Semester, Even Years
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3.00 Credits
This course will introduce students to the basics of signal modulation and radio frequency analysis and design. The approach is tailored to a careful development of the mathematical principles upon which such systems are based. A wide variety of current communication systems will be presented. The emphasis in this course is the design and analysis of Amplitude Modulation (AM), Frequency (angle) Modulation (FM), and Pulse Width Modulation (PWM), and understanding the differences between these types of modulations. The students will also be introduced to band-pass filters that are extensively used in signal demodulation. Prerequisite: ENGS 331. Three Credits Staff Spring Semester, Odd Years
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3.00 Credits
A course in geometrical and physical optics. It is cross listed as PHYS 352. A full description may be found there.
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3.00 Credits
This course covers the analysis of determinate and indeterminate structures; moment-area and conjugate beam methods; deflection of beams, trusses, and frames; consistent deformations method; influence lines; moment distribution method; and introduction to matrix methods in structures. Prerequisites: ENGS 222 and ENGS 224. Three Credits Brown Fall Semester, Odd Years
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3.00 Credits
This course covers classical mechanics. It is cross listed as PHYS 361. A full description may be found there.
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3.00 Credits
Determination and application of reaction rate variables, stoichiometry, equilibrium, and kinetics to batch and continuous reactor types. Design calculations for reactors including temperature, fluid flow and heat transfer considerations. Analysis of multiple reactions, chain reactions, biological reactions, and catalytic reactions. Prerequisites: ENGS 251 and 346 Misovich Fall Semester, Odd Years
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3.00 Credits
Study of the concepts of thermodynamic phase equilibrium and their application to large-scale separation processes used in industrial practice. Topics studied will include vapor-liquid and liquid-liquid equilibrium, nonideal solution behavior, single and multiple equilibrium stage calculations, distillation, absorption and extraction, binary and multicomponent systems, and equipment design considerations. Prerequisites: ENGS 251 and 348. Misovich Fall Semester, Even Years
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3.00 Credits
Continuation of study of the concepts of thermodynamic phase equilibrium and their application to largescale separation processes used in industrial practice. Topics studied will include vapor-liquid and liquid-liquid equilibrium, nonideal gas behavior, diffusion and mass transfer, rate-based continuous contact, distillation, absorption and extraction, binary and multicomponent systems, other separation processes, and equipment design considerations. Prerequisite: ENGS 375. Misovich Spring Semester, Odd Years
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3.00 Credits
Engineers create products, systems, and processes to solve problems and meet social needs. This course introduces students to the art and science of engineering design. Engineering design methods and the characteristics of the engineering design process are studied including: problem definition, conceptual design, preliminary design and detail design. Exercises are carried out focusing on the development of creativity, independent thinking, and the ability to overcome unexpected problems, as well as ethics in the workplace. Students learn oral and written communication skills needed in engineering design and carry out individual hands-on design projects. Prerequisites: ENGS 170, 221, 222 and 241, and junior standing. Three Credits Krupczak/Veldman Fall Semester
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