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Course Criteria
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4.00 Credits
After a preliminary study of probability spaces, the notions of random sampling theory are introduced. The binomial and the normal distributions are examined in detail, leading to techniques for estimating parameters, determining confidence intervals, and testing hypothesis. Prerequisite: MATH 241. 4 semester hours
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4.00 Credits
The algebra of complex numbers is developed. The elementary functions are studied, including a description of the singularities of rational functions. The technique of contour integration is developed, including the residue method of evaluation. An application is made to the computation of definite integrals. Prerequisite: MATH 241. 4 semester hours
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2.00 Credits
Design and implementation of a project approved by the faculty. Prerequisite: Senior standing. 2 semester hours each
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3.00 Credits
This subject-related work experience or other activity is offered only upon special application from the student and a supervising faculty member. Approval must be obtained in advance from the mathematics faculty and requires a specific outline of work to be done; the nature and extent of its academic relevance; the academic and special preparation of the student for the proposed activity. Written approval must be obtained from the employer/ sponsor, and arrangements must be made for regular contact between the student and the supervising faculty member. The student is responsible for making all arrangements. Afinal report must be submitted upon completion of the activity, and a pass/fail grade will be assigned. The number of semester hours earned will depend on the extent of the approved activity (12 semester hours corresponds to full-time work for a semester). Prerequisites: Junior or senior standing, a GPA of at least 2.5 both in the major and cumulative in all courses, and approval of both the academic advisor of the student and the head of the Science Division. 3-12 semester hours
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4.00 Credits
Students may pursue the study of mathematical topics not included in the previously listed courses; or students may participate in problems seminars. May be repeated. Prerequisite: Junior or senior status and subject to the selection of a faculty sponsor. 1-4 semester hours
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3.00 Credits
Atomic structure, arrangement, and movement. Microstructure and mechanical properties of materials. Properties of alloys, polymers, ceramics, and composite materials. Destructive and nondestructive testing. Deterioration and failure of materials. Materials selection and design considerations. Prerequisite: CHEM 145. 3 semester hours
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1.00 - 3.00 Credits
Basic principles underlying the construction and use of sensing and recording instrumentation for mechanical measurements. Data reduction and error analysis. Discussion of and lab experience in the use of transducers for the measurement of displacement; strain and stress; force and torque. One lecture and one three-hour lab per week. This is a writing-enriched course. Corequisite: ENGR 323. 2 semester hours
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1.00 - 3.00 Credits
A continuation of ME 303. Emphasis is on measurement of mechanical and thermodynamic properties of liquids and gases; pressure, temperature, viscosity, conductivity, etc. A variety of basic experiments illustrating the principles of fluid mechanics, thermodynamics, and heat transfer are conducted. One lecture and one three-hour lab per week. This is a writing-enriched course. Corequisites: ENGR 320, 325. 2 semester hours
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3.00 Credits
Energy analysis; vapor and gas power cycles; vapor and gas refrigeration cycles; thermodynamic properties of mixtures and solutions; psychrometry and air conditioning; reacting mixtures and combustion. Prerequisite: ENGR 325. 3 semester hours
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3.00 Credits
Geometry of motion-position, velocity, and acceleration. Motion analysis of linkages-quadric chains, slider-crank mechanisms, quick-return mechanisms, and intermittent motion mechanisms. Mechanism trains. Static and dynamic force analysis in mechanisms. Graphical, analytical, and numerical methods of solution. Prerequisite: ENGR 214. 3 semester hours
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