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Course Criteria
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3.00 Credits
This course presents the calculus-based theory and application of engineering mechanics, with emphasis on analysis of structures in static equilibrium. Topics include vector algebra, force systems, free body diagrams, concentrated and distributed loads, centroids, moments of inertia, and friction. Special applications such as trusses and frames are also treated.
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3.00 Credits
This course presents the calculus-based theory and applications of engineering mechanics to the relative motions and vibrations of particles and rigid bodies. Kinetics, kinematics, Newton’s Laws, work-energy relations, and impulse-momentum principles are used in conjunction with vector algebra to analyze and solve problems in two and three dimensions.
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3.00 Credits
Combined single-semester study of statics and dynamics. Calculus-based study of statics and dynamics of rigid bodies; vectors, forces, moments, centroids and moments of inertia, force-mass-acceleration, work-energy, and impulse-momentum computation; kinematics and kinetics of particles.
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3.00 Credits
Programming methods used to obtain solutions to basic engineering problems are presented in a contemporary computer language such as C++. Algorithms, data presentation, and program structures are developed and practiced.
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3.00 Credits
This course introduces the fundamental concepts of electrical and electronic engineering, and the principles of electric and electronic circuits. Topics include circuit analysis, network principles, steady-state and transient responses, and sinusoidal steady-state analysis. Laplace transforms and computer applications such as SPICE and PSPICE are utilized to solve network problems and illustrate connections between basic principles and advanced applications.
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3.00 Credits
This course presents the analysis of internal forces and deformations in solid materials under load and emphasizes the application of fundamental principles of engineering mechanics. Topics include properties of materials and response to stress and strain in elastic and plastic solids.
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4.00 Credits
Principles of direct current electricity and their application to series, parallel, series-parallel circuitry including Ohm’s Law, Kirchoff’s Laws, batteries, resistance, capacitance, inductance, magnetism, and electro-magnetism. Topics include Node-voltage and Mesh-current analysis; Thevenins, Nortons, maximum power transfer, source transformation, and Superposition theorems applied to electrical circuits. Electrical test and measurements instruments and their implementation will be covered. Use of computer software PSPICE and MATLAB for circuit analysis will be introduced.
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4.00 Credits
Principles of alternating current circuits and their application to series, parallel, series-parallel circuitry including Ohm’s Law, Kirchoff’s Laws, batteries, resistance, capacitance, inductance, and magnetism. Topics include Node-voltage and Mesh-current analysis; Thevenins, Nortons, maximum power transfer, source transformation, and Superposition theorems applied to electrical circuits. Electrical test and measurements instruments and their implementation will be covered. Use of computer software PSPICE and MATLAB for circuit analysis will be introduced.
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4.00 Credits
Analysis, design and simulation of basic digital circuits and their application including basic gates, arithmetic circuits, counters, data-handling circuits, and memory devices. Topics include combinational and sequential logic circuits, Boolean algebra, and circuit reduction techniques. Programmable logic devices, integrated circuits and standard test equipment will be used in the design, analysis, and test of digital circuits and systems.
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4.00 Credits
Principles of direct current electricity and their application to series, parallel, series-parallel circuitry including Ohm’s Law, Kirchoff’s Laws, batteries, resistance, capacitance, inductance, magnetism, and networks. Topics in circuit analysis techniques include Node-voltage and Mesh-current analysis as well as transformers, circuit resonance, and phasors will be discussed. Electrical test and measurements instruments will be covered. Use of computer software PSPICE and MATLAB for circuit analysis will be introduced.
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