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Course Criteria
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3.00 Credits
(Also PHY 384) 3 hours; 3 credits Structure of crystalline and noncrystalline solids. Phase transformations. Thermodynamics of multicomponent systems, surfaces, reaction rates, diffusion, and structural change. Mechanical properties, plasticity, strengthening. Ceramics and polymers, electronic and optical properties, thermoelectricity, magnetism. Prerequisites: ENS 310 and CSC 270
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4.00 Credits
4 hours; 4 credits Fundamental principles and objectives of heat transfer. Steady-state and transient heat conduction. Forced and free convection in external and internal flows. Heat transfer during change of phase. Heat exchangers and heat transfer by radiation. Pre- or corequisite: ENS 450
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4.00 Credits
4 hours; 4 credits Introduction to the theory of elasticity, and application of advanced strength of materials concepts to the design of elements of machines and structures. Prerequisite: ENS 380 Pre- or corequisites: MTH 331 and ENS 336
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4.00 Credits
4 hours; 4 credits Systematic design of integrated digital systems, using combinational, sequential, and MSI/LSI circuit chips. Transistor and FET circuit analysis and design. Operational amplifiers. Design of linear and nonlinear analog systems based on op-amps. Prerequisites: ENS 220 and ENS 241
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4.00 Credits
4 hours; 4 credits Application of probability theory to engineering problems. Topics include random signal models and their uses, linear prediction and signal modeling, filtering of stationary random signals, parameter identification by the maximum likelihood methods, noise reduction and signal enhancement filters, quantization noise, linear estimation and detection of signals. Prerequisites: ENS 241 and senior-level status or permission of instructor
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4.00 Credits
4 hours; 4 credits Bandwidth limitations on communication system capacity. Review of Fourier transforms. Sampling theorems. Digital systems: PAM, PCM. Analog systems: AM, FM. Modulator and demodulator circuits. Introduction to probability theory and detection of signals in noise, information theory, and coding. Prerequisites: ENS 241 and senior-level status or permission of instructor
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4.00 Credits
4 hours; 4 credits Fundamental principles of conversion of such prime energy sources as chemical, nuclear, and solar into thermal, electrical, mechanical, and other forms of energy. Applications of thermochemical, electrochemical, and electromagnetic devices. Power plants and energy transmission. Direct energy conversion. Prerequisite: ENS 310
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4.00 Credits
4 hours; 4 credits Fundamental concepts and operational considerations of electric energy systems. Synchronous machines, power transformers, and high-energy transmission lines. Energy flow and load-flow analysis. Surge impedance loading and symmetrical fault analysis. Unbalanced systems analysis. Control problems and transient stability analysis. Prerequisite: ENS 241 Pre- or corequisite: MTH 330
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4.00 Credits
4 hours; 4 credits Thermodynamic cycles for power plants. Economic analysis of power plants. System performance characteristics and selection. Analysis of steam generation and turbine systems. Cooling tower design. Condenser design. System simulation and optimization. Prerequisite: ENS 310
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2.00 Credits
4 laboratory hours; 2 credits Students will undertake projects illustrating the principles, operation, and characteristics of electrical and electromechanical systems, operational amplifiers, digital filters, and transducers. Additional projects will involve modulation, transmission, and detection in analog and digital communication systems, and signal and image processing techniques. Projects will be designed and simulated using the appropriate hardware and software tools. Measured data will be compared to simulated results. These projects fulfill the course objective of translation of systems theory into operating circuitry and systems. Prerequisite: ENS 309
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