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Course Criteria
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4.00 Credits
Direct-current circuits; circuit elements; Kirchoff's Laws; loop and nodal analysis; network theorems; natural forced, and complete circuit response, steady-state AC circuits, AC power, polyphase circuits, frequency response. Prerequisites: PH 231, MA 240. (4)
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3.00 Credits
Bodies in equilibrium. Vectors and vector algebra; forces, moments, and couples; equivalent force systems; frictional forces; structural analysis; distributed forces and properties of surfaces. Prerequisite: PH 230; Pre or Co-requisite: MA 240. (3)
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3.00 Credits
Bodies in accelerated motion. Kinematics and dynamics of particles; work and energy; impulse and momentum; kinetics and dynamics of rigid bodies; mechanical vibrations. Prerequisite: EP 261. (4)
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4.00 Credits
Introduction to engineering materials; concepts of strain, stress, equilibrium; material responses to applied loading/ deflection; analysis of engineering components; e.g., beams, thin-walled structures, axisymmetric elements; introduction to structural stability. Three lectures and a two hour lab. Prerequisite: EP 261. (4)
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3.00 Credits
Logic circuit elements, logic function and Boolean algebra, combination logic circuits, PLD and CPLD, introduction to VHDL, sequential logic circuits, finite state machine, memory devices and systems. Two hours lecture and one two-hour lab. Prerequisites: PH 121 or PH 231. (3)
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3.00 Credits
An introduction to microcontroller and embedded systems. Microcomputer hardware organization and software programming; use of microcontrollers in ebedded systems. One hour lecture and two two-hour labs. Prerequisites: CS 155 or CS 117; EP 305 or CS 280. (3)
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4.00 Credits
Physics of diodes; diode applications' physics; biasing, and small-signal models of bipolar junction transistors (BJT's) and field-effect transistors (FET's); frequency response of amplifiers, feedback, oscillators, operational amplifiers; and active filters. Three hours lecture; two hours lab. Prerequisite: PH 121 or PH 231. (4)
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3.00 Credits
Thermodynamic laws and processes; heat transmission; kinetic theory. Applications to heat engines, turbines, refrigeration, and heat exchangers. Prerequisites: PH 231; MA 245. (3)
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3.00 Credits
Introduction to the laws of thermodynamics, concept of control volumes, thermodynamic properties of materials, behavior of ideal gases, introduction to basic heat transfer modes; introduction to fluid mechanics and Bernoulli's equations. Prerequisite: PE 263. Pre or corequisite: MA 350. (3)
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3.00 Credits
Analysis and design methods for continuous-time and discrete-time systems including signal models, Fourier series and transform, Laplace transforms, discrete Fourier transform, Z-transform, digital filtering, and the Fast Fourier Transform (FFT) algorithm. Prerequisites: EP 240; MA 350. (3)
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