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Course Criteria
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3.00 Credits
Prerequisites: SYEN 3350, corequisite 3314. Introduction to communication systems, signals and spectra, signal transmission over communication channels, filtering, linear and exponential CW modulation, sampling, pulse modulation, random signals, noise in communication systems. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisites: SYEN 2315 and MATH 2453. Vector algebra and vector calculus; electrostatics, magnetostatics, Maxwell?s equations for time-varying fields, planewave propagation; transmission lines; wave reflection and transmission; radiation and antennas. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: SYEN 2315. Electrical machines: generators, motors, and transformers; electrical and electronic drives: motor control and power electronics; electric utility power systems: generation, transmission, distribution, and utilization of electricity. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: SYEN 1302. Design, analysis, and implementation of algorithms important to computer systems and telecommunication systems; algorithmic design patterns and frameworks; data structures; combinatorial algorithms; graph algorithms; geometric algorithms; numerical algorithms; and internet algorithms, including text processing, cryptography, and network algorithms. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: SYEN 3310. Introduction to control systems, physical system modeling, differential equations, transfer-function, and state-variable models,analog and digital simulation, stability analysis, performance criteria, root-pocus techniques, frequency-response techniques, cascade controller design, pole placement design, techniques for nonlinear, discrete-event, and sampled-datasystems, design examples. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisites: SYEN 1305, PHYS 2322, corequisite MATH 2453. Statics of particles, rigid bodies, equivalent systems of forces, equilibrium, centroids and centers of gravity, analysis of structures, forces in beams and cables, friction, moments of inertia, method of virtual work, kinematics of particles, Newton?s Second Law, energy and momentum methods, systems of particles, kinematics of rigid bodies, plane motion of rigid bodies, forces and accelerations, kinetics of rigid bodies in three dimensions, mechanical vibrations. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisites: SYEN 3370. Atomic structure and bonding, crystal structures, crystal geometry, solidification, crystalline imperfections, and diffusion in solids, mechanical properties of metals, polymeric materials, phase diagrams, engineering alloys, ceramics, composite materials, corrosion, electrical properties of materials, optical properties and superconductive materials, magnetic materials. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisites or corequisites: SYEN 3370 and CHEM 1402. Properties of pure substances, First Law of Thermodynamics, closed systems, control volumes, Second Law of Thermodynamics, entropy, exergy, gas power cycles, vapor and combined power cycles, refrigeration cycles, thermodynamic property relationships, gas mixtures, gas-vapor mixtures and air conditioning, heat transfer by conduction, convection, and radiation. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisites: declaration of systems engineering major, completion of at least 60 hours total credit hours with an overall GPA of 2.5 or higher, completion of 20 or more credit hours of systems engineering courses with a GPA of 2.5 or higher, and permission of the systems engineering cooperative education faculty coordinator. This course is for qualified students who would like to combine classroom study with at least 200 hours of engineering-related paid employment. The course is a partnership between the student, the employer, the systems engineering faculty, and the UALR Office of Cooperative Education. An individualized Cooperative Education Learning Agreement will specify the detailed work assignment, including employer, supervisor, job title, work schedule, and rate of pay, as well as the academic requirements, including learning objectives, learning activities, documentation of learning, learning assessments, and grading policy. This course will be allowed to satisfy up to six hours of program electives. Three credit hours.
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3.00 Credits
Prerequisite: Senior standing. Individual investigation by an upper level student. Topics determined in consultation with supervising faculty. For each credit hour, the student is expected to work two to four hours per week as determined by the instructor. Agreement must be in writing and filed with the department chairperson. A maximum of six credit hours can be applied toward the SYEN major requirement. One to five credit hours.
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