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Course Criteria
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3.00 Credits
This course provides an overview of the engineering profession and methodologies of engineering design. Students develop skills using computer aided design (CAD) and simulation software for engineering systems. Team projects and homework are implemented and tested in a laboratory environment. The course also introduces the students to standard computer application software.
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2.00 Credits
Introduces basic concepts and applications of software programming for solving engineering problems. Topics include: techniques for developing structured algorithms, data input and output, conditional statements, loops, recursion, functions, arrays and elementary concepts in mathematical programming. Examples, homework, and applications of programming concepts make extensive use of the C programming language. GOALS: To guide the student in the development of fundamental programming and algorithmic skills necessary to solve engineering problems with a computer.
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4.00 Credits
Provides an integrated lab/lecture sequence in which students are introduced to the fundamentals of circuit analysis. Topics include resistive, capacitive, and inductive circuit elements, nodal and mesh analysis, transient response of RLC circuits, steady state sinusoidal response, operational amplifiers, and an introduction to diodes and transistors.
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4.00 Credits
An integrated lab/lecture course which continues EGR 251. This course covers sinusoidal steady state analysis, LaPlace and Fourier analysis, transistors, diodes, op-amps, and three-phase systems. An introduction to computer aided design and analysis is provided.
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3.00 Credits
Includes resolution and composition of forces, moments, principles of equilibrium and application to trusses and jointed frames, friction, center of gravity and second moments of areas. Uses vector analysis throughout.
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3.00 Credits
Covers rectilinear and curvilinear motions, force, mass and acceleration, projectiles, pendulums, inertia forces in machines, work and energy, impulse and momentum and impact.
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4.00 Credits
Introduces basic concepts of computer programming with an emphasis on program decomposition and program structure. Focuses on structured problem-solving using the C high-level programming language. Covers number concepts fundamental in electrical engineering. Problems drawn from the field of electrical and computer engineering will require no prior engineering knowledge.
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3.00 Credits
An introduction to principles of engineering project management and techniques. Topics include technical feasibility studies, project specifications, scheduling, validation, life cycle costing, and economic analysis. The focus is on managing an engineering project through scheduling, budgeting, resource management, execution and control.
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4.00 Credits
Introduces digital devices and their applications in combinational and sequential circuits. Provides instruction in methods of design of digital circuits and systems. Topics include binary arithmetic, Boolean algebra, K-maps, programmable logic, decoders, displays, encoders, multiplexers, demultiplexers, latches, flip-flops, registers, and finite state machines. Computer-Aided-Design programs are used to design, simulate, and optimize circuits.
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1.00 Credits
Provides engineering students with the basic concepts and applications of software programming for solving engineering problems using MATLAB.
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