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Course Criteria
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3.00 Credits
Prerequisite: MAT* K137 or acceptable placement score. This course introduces the basic concepts of statistics as they apply primarily to business, the technologies, and the social sciences. The topics include methods of summarizing data, measures of central tendency and dispersion, correlation and linear regression, basic probability, binomial and normal distributions, hypothesis testing for one and two populations, confidence intervals, and distributions. This course is equivalent to MAT* K163 Statistics I.
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4.00 Credits
Prerequisite: MAT* K137 or acceptable placement score. A graphing calculator is required. Instructor will use a Texas Instrument calculator (TI83). This course prepares students for the study of Calculus I. The topics include polynomial and rational functions and their graphs, operations on radical expressions, matrices, exponential and logarithmic functions, trigonometric functions and their graphs, trigonometric identities, trigonometric applications, and determinants.
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4.00 Credits
Prerequisite: MAT* K186. This is a first course in calculus intended for students who plan on majoring in mathematics, physical science, or engineering technologies. The topics include functions, transcendental functions, differentiation and integration of the transcendental functions, limits, continuity, derivatives, anti-derivatives, and applications.
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4.00 Credits
Prerequisite: MAT* K254. This course is the second semester of calculus intended for students who plan on majoring in mathematics, physical science, or engineering technologies. The topics include the definite integral, applications of integration, methods of integration, sequences, series and vectors.
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4.00 Credits
Prerequisite: MAT* K256. This third semester of calculus is intended for students who plan on majoring in mathematics, science or engineering technologies. It exposes students to the calculus of several variables. Topics include vectors, dot and cross product, equations of lines and planes, functions of several variables, limits and continuity, partial derivatives, chain rule, gradient, maximizing and minimizing functions of several variables, Lagrange multipliers, multiple integrals, polar, cylindrical, spherical coordinate systems, vector fields, line integrals, Green's and Stokes' and the Divergence Theorems.
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3.00 Credits
Prerequisite: MAT* K256. This course provides an introduction to ordinary differential equations and their applications, linear differential equations, systems of first order linear equations and numerical methods.
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3.00 Credits
Prerequisites: MAT* K137, PHY* K114. Co-requisites: MAT* K186. This course helps students develop the ability to analyze problems using the basic principles of static systems in order to provide a foundation for stress analysis. The forces on structures in equilibrium and concepts of centroids, center of gravity, and moment of inertia are studied. The concept of stress and strain in axial torsional and bending loading is also introduced.
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1.00 Credits
Prerequisite: MAT* K095 or higher. Co-requisite: MEC* K153. This course teaches the basic concepts of orthographic projection, isometric, and oblique drawings and basic drafting terminology. Emphasis will also be placed on freehand sketching using the above concepts and terminology. Basic principles of simplified board drafting practices will be covered. A major component of this course will focus on descriptive geometry which will nurture the visualization skills of students by identifying points, planes, and perpendiculars in various perspectives. Some of the techniques will be accompanied with CAD as a comparison.
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1.00 Credits
Prerequisite: CSA* K105. Co-requisite: MEC* K232. This course is a continuation of Computer Application I with a primary emphasis upon the personal computer as a problem solving tool for mechanical students. Upon completion of this course, students will have an awareness of (1) existing mechanical software on the market, (2) an application media for concepts learned in Computer Applications I, and (3) computer solution methods for complex mechanical problems.
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2.00 Credits
Prerequisite: CSA* K105. Co-requisite: MEC* K231. This course teaches students to performs laboratory exercises to fulfill the goals of MEC* K231. The purpose of the lab is to provide relevant projects for computer applications as applied to the mechanical discipline.
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