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Course Criteria
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3.00 Credits
- 3 credits This course discusses the fundamentals of thermodynamics, which include system concepts, state of equilibrium, processes of properties, Zeroth, first and second laws of thermodynamics, flow and non-flow processes. Carnot cycle and efficiencies of reversible conversions, irreversibility, entropy concepts, ideal gases, and use of property tables are also covered. Prerequisites: EGR115, MAT120, PHY220
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3.00 Credits
- 3 credits Course content includes rectilinear, curvilinear, and dynamic motion, kinetics of rigid bodies, plane motion of rigid bodies and an introduction to mechanical vibrations. Prerequisites: MAT 120, EGR115, PHY220
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3.00 Credits
- 3 credits This course deals with the concept of stress and strain in members under the action of axial and shearing forces, bending and twisting moments. The course content includes analysis of stress and strain, Hooke's law (stress-strain diagram), thermal stresses, torsion and beam analysis. Computer application is required for the homework assignments. Prerequisite: EGR115 and MAT120
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3.00 Credits
- 3 credits Analysis of stress and strain, beam deflections, statically indeterminate beam analysis, asymmetric bending, column theory and dynamic loading are covered. Computer applications use FORTRAN and BASIC and laboratory experiments use strain gauge techniques. Prerequisites: MAT220, EGR220
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3.00 Credits
- 3 credits This course covers atomic structure, metallurgy, plastic and ceramic materials. Material characteristics related to mechanical properties are emphasized. Composite materials and their application are investigated. Prerequisite: MAT115, PHY120
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3.00 Credits
- 3 credits This course introduces the basic principles of gas flow, the properties of air and their relationships to the standard (earth's) atmosphere, thermodynamic relationships, momentum equations, mach number and Reynold's numbers. This course also discusses fundamental aircraft theory and the elements of lift and drag. Prerequisite: EGR215, PHY220; corequisite: EGR210
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3.00 Credits
- 3 credits Topics covered are numerical analysis, finite difference approximations, matrix inversion methods, and implicit and explicit procedures. The course will feature the utilization of finite element computer lyze fluid flow, heat transfer and structural problems. Prerequisite: EGR225, MAT220
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3.00 Credits
- 3 credits The principles of fluid mechanics will be applied to various fluid systems. Topics covered include the flow of fluids in pipes, dimensional analysis, energy loss and addition, laminar and turbulent viscous flows and friction and area change losses in piping systems. The course also includes computer applications. Prerequisites: EGR215, MAT220
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3.00 Credits
- 3 credits This course is the study of free and forced vibrations of single and multipledegree of freedom systems with and without damping, vibration isolation and absorbers, resonance phenomenon, introduction to the vibration of continuous systems, and mechanical and electrical models of vibrating systems. Prerequisites: MAT445, EGR215 and EGR225
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3.00 Credits
- 3 credits The purpose of this course is to introduce the concepts of the theory of structural reliability and the reliability-based design formats. The tools needed in the course are probability, statistics and basic mechanics (statics, dynamics and strength of materials). Students are expected to have working knowledge of differential and integral calculus as well as basic mechanics. Upon completion of this course, students will be expected to be able to perform statistical load analysis and strength analysis, as well as to solve structural reliability problems, including design and safety checking under quasi-static loads. Prerequisites: EGR340, EGR225; spring offering only
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