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Course Criteria
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3.00 Credits
fall/spring This course introduces discrete structure in computer science. The instruction covers such topics as sets, set logic, relations, functions, proof techniques, induction, logic, graphical representations, and algorithms. 3 hours of lecture per week. Prerequisite: MAT-1210, MAT-1221, or Placement level 3.
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4.00 Credits
fall/spring Topics include techniques of integration, numeric integration, hyperbolic functions, indeterminate form and improper integrals, polar coordinates, partial function expansion, differential equations, and infinite series. 4 hours of lecture per week.. Prerequisite: MAT-1520.
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4.00 Credits
This course provides students with an opportunity to continue their study of calculus and covers the traditional third semester topics in calculus: vectors, partial derivatives, multiple integrals, vector analysis, and differential equations. 4 hours of lecture per week. Prerequisite: MAT-2532.
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3.00 Credits
This course introduces selected topics of advanced mathematics and applies them directly to key areas of electrical and mechanical analysis. Includes selected topics in solutions of first and second order differential equations, Laplace transforms, Fourier series, partial differential equations, numerical methods of solving ordinary and partial differential equations, and systems modeling concepts. 3 hours of lecture per week. Prerequisite: Junior standing or permission of the instructor, ELT-1080 or ELT-3020, and MAT-2532.
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3.00 Credits
This course introduces fundamental topics in discrete mathematics that offer theoretical support for a variety of computer applications. Applications such as algorithm development and analysis, error analysis, data encryption and combinatorics are best understood with a foundation in logic and proof theory, set theory, probability, number theory and the structure of modern algebra. This course will introduce the mathematical concepts and then follow them with some application of the concepts to computer science and computer technology. 3 hours of lecture per week. Prerequisite: MAT-2532.
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1.00 Credits
The seminar presents an introduction to the mechanical engineering technician career and to the skills of life-long learning. Introductory design projects, research, lab experiments, student presentations, speakers from industry, and field trips help develop teamwork, communications, and study skills, and give an overview of the broad field of mechanical engineering technology. 1 hour of seminar per week. Prerequisite: None.
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2.00 Credits
The course provides a basic understanding of the principles and technology of mechanical drawing and computer modeling as methods of documenting and communicating mechanical designs. The concepts of geometric construction, orthographic projection, sectional and auxiliary views, dimensioning, and fasteners are covered using hand-drawing techniques and basic drafting tools. Basic proficiency is also developed in computer-aided design (CAD) using a two-dimensional documentation software and a three-dimensional parametric solid-modeling software. The computer operating system, file management techniques, and email are also introduced. 6 hours of laboratory per week. Prerequisite: None.
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2.00 Credits
In this course, students gain proficiency in communicating mechanical designs using hand drawing and computer modeling, building on the fundamentals learned in the previous course. In addition, students gain skills in project management and teamwork. Students work in teams on short- and long-term mechanical design projects, maintaining electronic design notebooks and project webpages. Students practice two-dimensional and three-dimensional computer modeling and web authoring. 6 hours of laboratory per week. Prerequisite: MEC-1011.
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2.00 Credits
fall/spring This course will introduce the student to machine tools, measuring instruments and machining operations and how they relate to the manufacturing process. The concept of the job shop and production plant will be studied, and the relationship of design, production control and manufacturing will be demonstrated. Computer-aided manufacturing (CAM) will be introduced. 1 hour of lecture, 3 hours of laboratory per week. Prerequisite: None. [Course fee: $35.00]
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3.00 Credits
The structural nature and various mechanical properties governing the selection, use, and behavior of engineering materials, both metallic and non-metallic, is studied in this course. In the laboratory, students evaluate and control material properties through various testing, mechanical, and thermal procedures. 2 hours lecture, 3 hours laboratory per week. Prerequisite: PHY-1041 or equivalent. [Course fee: $15.00]
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