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Course Criteria
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3.00 Credits
An introduction to computer organization using assembly and machine language. This course covers number representation, computer arithmetic, instruction sets, I/O interrupts, and programming interrupts. Projects involve detailed study and use of specific computer hardware and software systems. Prerequisites: A grade of "C" or better in Engr 245and Engr 351
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3.00 Credits
A study of discrete mathematical structures that have applications in engineering, topics include: elementary set theory and logic, multi-valued logic, fuzzy set theory, metric spaces modular arithmetic, difference equations, sparse matrices, the discrete Fourier transformation, and an introduction to graph theory with applications. Prerequisites: A grade of "C" or better in Math 320 and Engr 245.
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3.00 Credits
Lecture/ laboratory course which prepares for careers in engineering by introducing basics of engineering economics, business finance and entrepreneurship and ethics. Topics included are: comparative financial desirability of engineering decisions, time-value of money (interest), depreciation methods, modern techniques for analysis of management decisions, professional practice, ethics, and ethical issues facing practicing engineers. The laboratory section is focused on Senior Design (see Engr 496) planning using principles of engineering economic analysis. Prerequisite: Junior standing in Engineering.
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3.00 Credits
Lecture/laboratory course to prepare students to analyze the effects of uncertainty in engineering systems and measurements. Topics included are: probability, distributions, statistical analysis, random variables, correlation, spectral density, noise in linear systems and reliability. Prerequisite: Engr 311, Engr 351, and Math 325
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3.00 Credits
The material for this class is designed to provide appropriate background to proceed into areas such as digital filters and signal processing, communications, control systems, electronics systems, mechanical systems and economics modeling. This class is built around the MATHLAB software package, used widely in both academia and industry. Prerequisite: Engr 331, Math 320, Math 325, and Engr 361
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3.00 Credits
A lecture/laboratory course to prepare students to design microprocessor-based systems. Review of random logic and introduction to computer architecture. Topics included are: details of MC68000 family organization, programming model, instruction set, and addressing modes, bus timing relations and constraints, memory allocation, serial and parallel output devices, exception (interrupt) handling. Other topics include: design software solutions using machine assembler and high level language programming, use of simulators, monitors, cross assemblers/compliers, and design hardware support circuits (reset, single step), memory allocation and I/ O. Prerequisite: Engr 351 (non-engineering majors may substitute CS 442), CS 145 or proficiency in C-Language programming.
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3.00 Credits
This course is a lecture/laboratory course concerned with the application of Newtonian mechanics to the motions of particles, systems of particles, and rigid bodies. Topics to be covered include the following: review of dynamic systems and MATHLAB programming, Newton's law, Energy methods, momentum methods, kinematics of particles, kinetics of particles, kinematics of rigid bodies and kinetics of rigid bodies. Prerequisite: Grade of "C" or betterin Engr 237.
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3.00 Credits
A lecture/laboratory course concerning the application of classical thermodynamics to engineering systems. Topics included are: properties of a pure substance, work and heat, the first law of thermodynamics, first law of analysis for a control volume, and second law analysis for control volume, and power and refrigeration cycles. Prerequisite: Chem 211, Phys 192, and Math 273.
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3.00 Credits
This course is a continuation of ENGR 331 which covers single-stage integrated amplifiers, differential and multistage amplifiers, frequency response of amplifier and basic concepts of feedback. In addition, this class will cover topics needed to understand Mechatronics and Control Systems. Topics such as, op amplifiers, filters, data converters, rectifiers, power amplifiers, and semiconductor sensors will be covered. This class is built around lab experiments (hands on experience). Prerequisite: Engr 320, Engr 331, Engr 378.
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3.00 Credits
A lecture/laboratory course illuminating basic concepts and principles of the statics and dynamics of fluids. Topics included are: fluid statics, control volume equations, dimensional analysis, viscous flow through pipes and channels and boundary layer problems. Prerequisite: Engr 388.
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