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Course Criteria
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4.00 Credits
(Also PHY 310) 4 hours; 4 credits Basic concepts: systems, temperature, work, and heat. First and second laws of thermodynamics. Entropy, vapor, and gas power systems. Refrigeration and heat pump systems. Nonreacting gas mixtures and psychrometrics. Prerequisite: PHY 160 or PHY 230 Pre- or corequisite: MTH 233 or MTH 236
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4.00 Credits
(Also PHY 316) 4 hours; 4 credits Rectilinear and curvilinear motion of particles and systems of particles. Energy and momentum methods. Kinematics of rigid bodies. Plane and three-dimensional motion of rigid bodies. Forces and accelerations. Conservative forces and conservation laws. Mechanical vibrations. Prerequisites: ENS 250 and CSC 270 or CSC 126 Pre- or corequisite: MTH 330
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4.00 Credits
4 hours; 4 credits Representation and analysis of systems. Sampling and discrete systems. Solution of difference equations. Discrete Fourier series and transforms. Convolution. Z transforms and stability. Computer-aided design and analysis of digital filters. Hardware demonstrations using the Texas Instruments TMS 320C30 single-board DSP computer. Prerequisites: ENS 221 or CSC 347, and MTH 232
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2.00 Credits
2 hours lecture, 4 hours laboratory; 4 credits Application of numerical analysis and computer simulation to the solution of engineering design problems. Topics include optimization and error analysis; solution of nonlinear equations; systems of algebraic equations; data analysis; regression and interpolation; numerical differentiation and integration; solution of ordinary and partial differential equations; finite difference and finite element methods; and introduction to programming for parellel processing and multimode machine. Theory will be implemented with several projects emphasizing design applications. Prerequisite: CSC 126 Pre- or corequisite: MTH 330
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4.00 Credits
(Also PHY 350) 4 hours; 4 credits Introduction to momentum, heat, and mass transfer. Introduction to continuous media, control volume formulation of conservation laws, momentum and energy consideration of fluid flow, heat transfer by conduction and radiation, mass diffusion, analogies and breakdown of analogies among momentum, heat, and mass transfer. Prerequisites: ENS 310 and CSC 270 or CSC 126 Pre- or corequisite: MTH 330
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4.00 Credits
(Also PHY 356) 4 hours; 4 credits Production, propagation, scattering, and absorption of electromagnetic waves. Maxwell’s equations in differential form, wave equation, energy transfer, and the behavior of waves at metallic and dielectric surfaces. Production of radiation by dipoles and its absorption. Design of antennas, wave guides, and other applications. Prerequisites: PHY 160 and CSC 126 Pre- or corequisite: MTH 330
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4.00 Credits
4 hours; 2 credits Introduction to the measurement of mechanical properties of materials. Testing of materials in tension, compression, shear, and torsion. Experiments with beams and columns. Stress and strain measurement. Exercises involving design, building, testing, and evaluation. Pre- or corequisite: ENS 380
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4.00 Credits
(Also CSC 462) 2 class hours, 4 laboratory hours; 4 credits Introduction to microcontrollers with an overview of the CPU architecture, instruction set, interface with target board, testing and program development using the structured assembly preprocessor. Interrupts and interrupt timing, analog-to-digital conversion and programming of peripheral chips will be some of the concepts covered in this class. Prerequisite: ENS 221 or CSC 347
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4.00 Credits
4 hours; 4 credits Introduction to engineering applications of static behavior of rigid and deformable systems. Definition of state of stress and strain at a point. Dependence of strain upon stress and temperature. Basic analysis of axial loading, pressure vessels, torsional strain, and stresses. Flexural loading and deflections. Stress-transforming equations and Mohr’s circle. Analysis of statically indeterminate members. Columns and buckling. Application to stress distribution and deformations. Prerequisites: CSC 126 or CSC 270 and ENS 250 Pre- or corequisite: MTH 330
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3.00 Credits
(Also PHY 383) 3 hours; 3 credits Electrons in atoms, electrons in crystals, contacts between materials and p-n junctions, bipolar transistors, optoelectronic devices, field-effect transistors, charge transfer devices, integrated circuits, solid state lasers. Photo cells and LEDS. Prerequisites: PHY 240, and CSC 126 or CSC 270
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