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Course Criteria
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3.00 Credits
This is a Texas Common Course Number. Prerequisite: ENGR 2301. Corequisite/Concurrent: MATH 2315. Calculus-based study of dynamics of rigid bodies, force-mass-acceleration, work-energy, and impulse-momentum computation. (3 Lec.) Coordinating Board Academic Approval Number 1411015310 Search for ENGR 2302 classes
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3.00 Credits
This is a Texas Common Course Number. Prerequisite: MATH 2414. Corequisite/Concurrent: MATH 2315. Principles of electrical circuits and systems. DC, transient, and sinusoidal steady-state analysis. (3 Lec.) Coordinating Board Academic Approval Number 1411015110 Search for ENGR 2305 classes
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3.00 Credits
This is a Unique Need Course. Prerequisite: COSC 1415 or COSC 1436. Corequisite/Concurrent: ENGR 2110. Introduction to hardware structures and assembly-language concepts that form the basis of the design of modern computer systems. Internal data representation and arithmetic operations in a computer. Basic logic circuits. MIPS assembly language. Overview of PC architecture. (3 Lec.) Coordinating Board Academic Approval Number 1401017210 Search for ENGR 2310 classes * Note: This Course Description includes updates that were added after it was originally published on May 27, 2008. (Original) | (Changes)
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3.00 Credits
This is a Texas Common Course Number.
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4.00 Credits
This is a Texas Common Course Number. Prerequisite: MATH 1314, MATH 1414 or the equivalent. Fundamental concepts of electrical science including potential, current and power in DC circuits. Fundamental laws and relationships applied to the analysis of circuits and networks: capacitance, inductance and magnetism; and single-frequency concepts; use of calculators and computer software in design and analysis of circuits. Standard instrumentation used in test and measurement of DC circuits and systems will be introduced. (3 Lec., 3 Lab.) Coordinating Board Academic Approval Number 1503035111
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4.00 Credits
This is a Texas Common Course Number. Prerequisite: ENGT 1401 and either MATH 1316 or MATH 2412. Complex AC circuit including transient analysis. Network theorems are applied to the solution of AC circuits. Resonance, filters, AC power and three-phase circuits are covered in detail. Continued application of calculators and computer design and analysis of circuits. Standard instrumentation used in testing AC circuits and systems and measurement of AC circuits and systems will be introduced. (3 Lec., 3 Lab.) Coordinating Board Academic Approval Number 1503035211
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4.00 Credits
This is a Texas Common Course Number. Prerequisite: MATH 1314, MATH 1414 or the equivalent. Analysis, design, and simulation of combinational and sequential systems using: classical Boolean algebra techniques, laboratory hardware experiments and computer simulation. Introduction to programmable logic devices (PLDs) and application-specific integrated circuits using software tool to the design and analysis of digital logic circuits and systems. Standard instrumentation used in testing digital circuits and systems will be introduced. (3 Lec., 3 Lab.) Coordinating Board Academic Approval Number 1503035311
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1.00 Credits
This is a WECM Course Number. Topics address recently identified current events, skills, knowledge, and/or attitudes and behaviors pertinent to the technology or occupation and relevant to the professional development of the student. This course may be repeated if topics and learning outcomes vary. (1 Lec.)
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2.00 Credits
This is a WECM Course Number. Topics address recently identified current events, skills, knowledge, and/or attitudes and behaviors pertinent to the technology or occupation and relevant to the professional development of the student. This course may be repeated if topics and learning outcomes vary. (2 Lec.)
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3.00 Credits
This is a WECM Course Number. Prerequisite: Credit or concurrent enrollment in MATH 1414 or the equivalent. An introduction to Robots/Automation. Topics include history, terminology, classification of robots, basic components, control systems, AC and hydraulic servomechanisms, programming, sensors, types of drive, end-of-arm tooling, end effectors, safety and design procedures. (2 Lec., 3 Lab.)
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