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ENGR 1100: Engineering Fundamentals

3.00 Credits

Middle Tennessee State University

Prerequisite: MATH 1630 or MATH 1730. Introduces various engineering fields. Emphasis on problem-solving techniques and the use of mathematics in analyzing technical problems. Topics such as graphical representation of data, estimation, dimensions, units, error estimates, statistics, and team work addressed. Engineering ethics and impact of engineering solutions on society and the environment.NOTE: This was formerly ET 1840.

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ENGR 2100: Intro to Engineering Design

3.00 Credits

Middle Tennessee State University

Introduction to computer-aided design (CAD) for product design, modeling, and prototyping. Individual use and team-based environment to design and prototype a functional and manufacturable marketable product. Application to design, manufacturing, and analysis using geometric tolerancing and dimensioning. Two hours lecture and three hours laboratory.

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ENGR 2110: Statics

3.00 Credits

Middle Tennessee State University

Prerequisite: ENGR 1100 and MATH 1910. Corequisite: PHYS 2011 or PHYS 2111. Mechatronics Engineering majors must complete PHYS 2111. Fundamental concepts and conditions of static equilibrium; their application to systems of forces and couples acting on rigid bodies; and the calculation of centers of gravity, centroids, and moments of inertia.

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ENGR 2120: Dynamics

3.00 Credits

Middle Tennessee State University

Prerequisites: ENGR 2110 and MATH 1920. Kinematics of particles in rectilinear and curvilinear motions. Kinetics of particles, Newton's second law, energy and momentum methods. Systems of particles, Kinematics and plane motion of rigid bodies, forces and accelerations, energy and momentum methods. Introduction to mechanical vibrations.

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ENGR 2130: Electrical Circuit Analysis I

3.00 Credits

Middle Tennessee State University

Prerequisites: ENGR 1100, MATH 1910, and PHYS 2121 or PHYS 2111. Mechatronics Engineering majors must complete PHYS 2121. Fundamentals of electrical circuits. Volt-ampere characteristics for circuit elements; independent and dependent sources; Kirchhoff's laws and circuit equations. Source transformations; Thevenlin's and Norton's theorems; superposition. Phasor analysis, impedance calculations, and computation of sinusoidal steady state responses. AC power, maximum power transfer, and three-phase circuits. Two hours of lecture and three hours of laboratory.

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ENGR 2210: Intro to Material Sci & Engr

3.00 Credits

Middle Tennessee State University

Prerequisites: CHEM 1110/CHEM 1111. Origin and behavior of materials. Classifications of materials. Physical metallurgy-mechanical and physical properties, crystalline structure, imperfections in solids, phase diagrams, failure mechanisms in materials, hardening and tempering, isothermal diagrams. Involves hands-on experiences through lab sessions in the use of metallurgical and mechanical testing equipment. Lecture and laboratory.

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ENGR 3510: Electrical Circuit Analysis II

3.00 Credits

Middle Tennessee State University

Prerequisites: ENGR 2130 and MATH 3120. Analysis of the RC and RL first-order circuits. Use of Laplace Transform techniques to analyze linear circuits with and without initial conditions. Characterization of circuits based upon impedance, admittance, and transfer function parameters. Fourier series, circuit analysis with Fourier transform, determination of frequency response of circuits, filter design. Lecture.

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ENGR 3520: Digital Circuits Fundamentals

3.00 Credits

Middle Tennessee State University

Prerequisites: ENGR 2130 and CSCI 1170. Introduces logic design with emphasis on practical design techniques and circuit implementation. Topics include Boolean algebra; theory of logic functions; mapping techniques and function minimization; logic equivalent circuits and symbol transformations; transistor-transistor-logic (TTL)/metal oxide semi-conductor (MOS) logic into gate implementations; electrical characteristics; propagation delays; signed number notations and arithmetic. Digital design using random logic and programmable logic devices (FPGAs and CPLDs). Two hours lecture and three hours laboratory.

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ENGR 3530: Electronics and Instrumentatio

3.00 Credits

Middle Tennessee State University

Prerequisite: ENGR 2130. Introduces use and analysis of electronic circuits and input mechanism of various sensors, design of analog signal conditioning systems based on the system requirement, as well as understanding the theory and the art of modern instrumentation and measurements (I&M) systems. Topics include BJT and MOSFET circuit model and analysis; operational amplifier; instrumentation amplifier; survey of sensor input mechanisms; analog signal conditioning and sensor application; measurement system architecture; errors in measurement; standard used in measurement. Two hours lecture and three hours laboratory.

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ENGR 3540: Intro to Feedback Control

3.00 Credits

Middle Tennessee State University

Prerequisites: ENGR 2120, ENGR 3510, ENGR 3520, ENGR 3530, MATH 3120. ENGR 3530 may be taken concurrently. Introduces classical feedback control in electrical, mechanical, mechatronics, and other continuous-time dynamic systems. Discusses how to model, evaluate, and design SISO and linear control systems using differential equations, transfer function, root locus, and frequency response methods. Hands-on experiments involving Matlab, Labview, transducers (sensors), and actuators (motors) used to complement the theoretical aspects of the course. Embedded control also introduced. Two hours of lecture and three hours of laboratory.

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