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Course Criteria
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4.00 Credits
An advanced course that focuses on the writing conventions expected of students in American colleges and universities. Students will become acquainted with the concepts of thesis and topic sentences, paragraph structure, and developing an essay. Students will learn research techniques and practice writing a research paper. Throughout the semester, sentence structure and grammer rules will be stressed.
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4.00 Credits
An advanced course that stresses the techniques and forms of scientific and technical writing for ESL students. It is primarily for graduate students who are studying computer science, engineering, environmental technology, and related fields. Students practice writing resumes, reports, manuals, memos, and analysis essays. In addition, students will learn research techniques and write a research paper.
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4.00 Credits
An advanced course that emphasizes the development of vocabulary and idioms used in the business world. Students also learn research techniques and write a research paper, resume, cover letter, memos, and a proposal. Role-playing of job situations increases fluency and confidence. This course is primarily for students in the M.B.A. program and similar graduate majors but any qualified student may register for it.
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4.00 Credits
This course introduces ESL students to the various aspects of American culture as depicted in films. The course emphasizes the development of listening comprehension, speaking, and writing skills. Students watch, discuss, and write about films. In addition, they will learn research techniques and write a research paper. This course is recommended for graduate students in communication arts, but any qualified student may register for it.
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3.00 Credits
A course designed to provide an understanding of what the computer can do and how it does it for the nontechnically oriented student. This course covers the basic concepts of computer operation and programming, applications of computers, and the effects of computers on society. This course replaces College Success Seminar for students in the School of Engineering & Computing Sciences.
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2.00 Credits
The course experience provides the skills and tools necessary for a technical career while enabling students to develop confidence in their academic endeavors. The creative role in the multi-disciplinary design and development process is emphasized in addition to communication skills, ethical, legal, and professional responsibilities. This course may be waived for students with sophomore or higher status. This course replaces College Success Seminar for students in the School of Engineering & Computing Sciences.
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1.00 Credits
This course provides students with an opportunity to work in a professional environment in areas appropriate to their field of study. To be eligible, students must have junior or senior status, a GPA of 3.0 or better, and the permission of his/her chairperson. The grade is on a Pass/Fail basis and is to be determined by the faculty advisor in consultation with the student's supervisor. A term paper, with presentation, is required. This course will be in addition to the required courses for the degree and may be repeated.
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4.00 Credits
Fundamental units, electrical components, wire calculations, work power, efficiency, Ohm's law series and parallel resistive circuits, Kirchhoff's laws. Introduction to electric and magnetic energy storage, capacitance, inductance, RC and RL time constants, meters, fundamentals of dc motors and generators. Lectures are followed by laboratory experiments. Corequisite: TMAT 135.
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3.00 Credits
Fundamental units, electrical components, wire calculations, work, power, efficiency, Ohm's law, series and parallel resistive circuits, and Kirchhoff's laws are covered. Electric and magnetic energy storage, capacitance, inductance, RC and RL time constants, and meters are also discussed. Corequisite: TMAT-135.
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4.00 Credits
Alternating-current concepts. Reactance circuits, series and parallel, power factor, complex algebra, and phasor notation. Resonance phenomena, coupled circuits and transformers. Lectures are followed by laboratory experiments. Prerequisite: ETEC 110. Corequisite: TMAT 155.
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