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Course Criteria
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0.00 - 4.00 Credits
An elementary treatment of mechanics, wave motion, hydrostatics, sound, heat, light, electricity, and magnetism. Some calculus concepts are employed, and the problem method is largely used. Three (3) lectures and one (1) two-hour laboratory period per week.Prerequisites: MTSC 251, MTSC 252.Credit, four hours each.
Prerequisite:
MTSC 251
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0.00 - 4.00 Credits
An elementary treatment of mechanics, wave motion, hydrostatics, sound, heat, light, electricity, and magnetism. Some calculus concepts are employed, and the problem method is largely used. Three (3) lectures and one (1) two-hour laboratory period per week.Prerequisites: MTSC 251, MTSC 252.Credit, four hours each.
Prerequisite:
MTSC 252
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0.00 - 4.00 Credits
A calculus based general physics sequence intended to meet the needs of students enrolled in all science, math, and technology programs (except physics and engineering majors). The sequence will address the fundamental concepts in linear and rotational mechanics, fluids, thermodynamics and kinetic theory, electric fields and circuits, magnetic fields, geometric and wave optics, and topics in modern physics. The following Strands and Goals of the General Education Program will be addressed by this course: Reading, Writing, Speaking, Listening, Across the Curriculum, Critical Thinking / Problem Solving, Computer and Information Technology, and Moral / Ethical Issues.Credit, four hours each.
Prerequisite:
MTSC 251 OR MTSC 261
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0.00 - 4.00 Credits
A calculus based general physics sequence intended to meet the needs of students enrolled in all science, math, and technology programs (except physics and engineering majors). The sequence will address the fundamental concepts in linear and rotational mechanics, fluids, thermodynamics and kinetic theory, electric fields and circuits, magnetic fields, geometric and wave optics, and topics in modern physics. The following Strands and Goals of the General Education Program will be addressed by this course: Reading, Writing, Speaking, Listening, Across the Curriculum, Critical Thinking / Problem Solving, Computer and Information Technology, and Moral / Ethical Issues.Credit, four hours each.
Prerequisite:
MTSC 251 OR MTSC 261
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3.00 Credits
An introduction to scientific software including program writing, data processing, and visualization. Software packages used for the class include C/C++, MATLAB, and Origin. Prerequisites PHYS 201 and MTSC 251. Corequisite PHYS 202.Credit, three hours.
Prerequisite:
PHYS 201 AND MTSC 251 AND PHYS 202
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3.00 Credits
The course includes the development of skills and understanding of basic principles of electronic instrumentations. Typical topics include the study and use of simple circuits and basic electronic devices like diodes and transistors, the measurement of characteristics of electronic signals and the use of basic instrumentation like oscilloscopes, amplifiers, signal generators, power supplies, detectors and others for conducting concrete physical experiments. One (1) laboratory period.Prerequisites: MTSC 252, PHYS 202.Credit, four hours.
Prerequisite:
MTSC 252 AND PHYS 202
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3.00 Credits
An introduction to both the theory and applications in signals and systems. Discrete and continuous time signals and systems, sampling, and conversion between analog and digital signals.Prerequisites: ENGR 212.Credit, three hours.
Prerequisite:
ENGR 212
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3.00 Credits
An intermediate course on the thermal phenomena involving gases and solids. The topics included are thermometry, calorimetry, specific heat, expansion, heat transfer, introductory kinetic theory, laws of thermodynamics, and applications. Three (3) lectures per week.Prerequisites: MTSC 251, MTSC 252, PHYS 201, PHYS 202.Credit, three hours.
Prerequisite:
MTSC 251 AND MTSC 252 AND PHYS 201 AND PHYS 202
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3.00 Credits
An overview of laser and optical systems with emphasis on optical beams and resonant laser cavities, characteristics of typical lasers (gas, solid state, and semiconductor), and application of optical devices.Prerequisites: PHYS 351.Credit, three hours.
Prerequisite:
PHYS 316
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4.00 Credits
The course enables students to gain theoretical and practical background in both physics and engineering aspects of fiber optic communications including the fundamental principle of light propagation in optical fibers and waveguides, the critical components of fiber optic networks, and fiber optical network systems.Prerequisites: PHYS 316.Credit, four hours.
Prerequisite:
PHYS 213
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