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Course Criteria
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4.00 Credits
Spring This course is designed for math-science and computer science majors to discuss many topics applicable to their field of study, but can also be beneficial to engineering science majors. Topics include: set theory, logic, methods of proof, relations, functions, partial order, equivalence relations, lattices, Boolean algebra, graph theory, and predicate calculus. Pre- or co- requisite: MATH 176, Calculus with Precalculus II or MATH 180, Calculus.
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4.00 Credits
Fall, Spring, Summer, DL The following topics are covered: techniques of integration, improper integrals, sequences and series, conic sections, polar coordinates, parametric equations and applications of integration. Prerequisite:MATH 176, Calculus with Precalculus II or MATH 180, Calculus I.
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4.00 Credits
Fall A course designed for students who major in science or engineering that emphasizes contemporary applications of probability and statistics. Topics include, but are not limited to, the following: conditional probability, correlation, empirical distributions, events, hypothesis testing, interval estimation, probability distributions (continuous and discrete, joint and marginal), linear regression, means, random variables, sample spaces, and variances and co-variances. Prerequisite: MATH 176, Calculus with Precalculus II or Math 180, Calculus I. Pre- or co- requisite: MATH 190, Calculus II.
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4.00 Credits
Fall, Spring, Summer, DL Vectors, vector calculus, functions of several variables, multiple integral, topics from linear algebra including matrix algebra, systems of linear equations, determinants, linear transformations and the eigen value problem. Prerequisite: MATH 190, Calculus II.
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4.00 Credits
Fall, Spring, Summer Basic methods of solution of differential equations with emphasis on linear versus nonlinear with modeling as motivation. LaPlace transforms are developed. Linear systems are solved using eigen vectors. Power series and/or Fourier series are introduced in solving equations. Prerequisite: MATH 210, Calculus III.
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4.00 Credits
Fall, Spring Lab fee will be required. This course combines theory and practice in an environment of applied materials science. Lectures consist of the presentation of topics by the instructor, weekly oral presentations by students, and the solution of pertinent materials and strength of materials equations. The laboratory consists of conducting experiments in common materials testing, and demonstrating the principles of materials science using the analytical tools in the laboratory. Corequisite: MATH 105, Applied Technical Mathematics I or MATH 150, College Algebra and Trigonometry.
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4.00 Credits
Fall, DL Lab fee will be required. A comprehensive course designed for the technology student, but may be taken by any student with an analyticalmind. The course illustrates the use of microcomputers in the analysis and presentation of solutions to engineering design problems using grouped software that integrate numerical, textual, and graphical techniques of grouped spread sheet, word processing, and presentation software. Engineering design problems solved will be traditional and state-of-theart. Contact the Mechanical/ Industrial department to confirm current software. Corequisite: MATH 105, Applied Technical Mathematics I or MATH 150, College Algebra and Trigonometry.
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3.00 Credits
Spring Lab fee will be required. A conceptual course designed to introduce the use of computer-aided drafting and design as a productivity tool by using commercial CAD software, as well as the interaction of software and hardware. Upon successful completion, students will be proficient in the use of a CAD system for 2-D and 3-D mechanical component design and drafting, dimensioning techniques, drawing layout and presentation.
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3.00 Credits
Spring Lab fee will be required. The construction, purpose and operation of all standard machine tools and special high production type machine tools, including a survey of primary processes. Laboratory sessions include demonstration of textbook topics.
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4.00 Credits
Fall Lab fee will be required. A course designed to develop an engineering approach to force systems, center of gravity, equilibrium, friction, moment of inertia, kinematics, kinetics, work, energy, power, impulse and momentum. Prerequisite: MATH 150, College Algebra and Trigonometry and PHYS 135, Technical Physics I.
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