probability, sample spaces, random variables, probability distribution, estimations, confidence intervals, hypotheses testing, experimental analysis, moments and moment-generating functions, and computer- assisted data analysis using appropriate computer software. This course is offered on a demand basis only. 3 Credit Hours
education are more than proficient at performing basic arithmetic operations. Topics include concepts for plane and solid geometry. Emphasis is on linear measurement as well as fundamental concepts of geometry dealing with lines, angles, triangles, polygons, and solids. The metric system is used for measurement through the course. The use of manipulatives and calculators in the teaching and learning process is emphasized. Upon completion, students will be given exams to test for mathematical proficiency and the learning of teaching concepts. Additionally, students will demonstrate teaching techniques by preparing a lesson and teaching it to the class for their final exam grade. 3 Credit Hours
MACHINE TOOL TECHNOLOGY (MTT)
MTT 107 MACHINING CALCULATIONS Prerequisite: As required by the college
This course introduces basic calculations as they relate to machining occupations. Emphasis is placed on basic calculations and their applications in the machine shop. Upon completion, students should be able to perform basic shop calculations. This course is aligned with NIMS certification standards. 3 Credit Hours MTT 121 BASIC PRINT READING FOR MACHINISTS Prerequisite: As required by the college . This course covers the basic principles of print reading and sketching. Topics include multi-view drawings; interpretation of conventional lines; and dimensions, notes, and thread notations. Upon completion, students should be able to interpret basic drawings, visualize parts, and make pictorial sketches. 3 Credit Hours
MTH 237 LINEAR ALGEBRA Prerequisite: Grade of C or higher in MTH 126
This course introduces the basic theory and application of the following topics: systems of linear equations and matrices, (finite- dimensional) vector spaces, linear transformations and matrices, determinants, eigenvalues and eigenvectors, inner product and orthogonality, Gram-Schmidt, least squares, and the diagonalization of symmetric matrices. 3 Credit Hours
MTH 238 APPLIED DIFFERENTIAL EQUATIONS I Prerequisite: Grade of C or higher in MTH 126 COREQUISITE: MTH 227.
MTT 127 METROLOGY Prerequisite: As required by the college
This course is an introduction to techniques for solving differential equations with applications. Topics include solving first order differential equations, applications to various models (e.g. populations, motion, chemical mixtures, etc.), solving higher order linear differential equations with constant coefficients (general theory, undetermined coefficients, reduction of order and the method of variation of parameters, and Laplace transform). Series solutions and solutions to systems are also covered 3 Credit Hours MTH250 DISCRETE MATH Prerequisite:: Grade of C or higher in MTH 125 COREQUISITE: MTH 126-Calculus II. This course provides an introduction to combinatorics and graph theory. Topics include sets, logic, relations and functions, mathematical induction, algorithmic processes, recurrence relations, counting techniques, asymptotic growth, Boolean algebra, graphs, and network algorithms. 3 Credit Hours MTH 252 SPECIAL TOPICS IN MATHEMATICS II Prerequisite: As required by the college This course, which may be repeated for credit so long as the topics differ, permits a student to study with an instructor a topic in mathematics. Emphasis is placed on selected topics in mathematics of special interest to the student and instructor. Topics and coursework are based on Principles and Standards for School Mathematics from the National Council of Teachers of Mathematics. This is a non- transferable course. Students will demonstrate competency on selected topics by performance on projects, daily work, classroom exams, and a comprehensive final. 1-3 Credit Hours MTH 265 ELEMENTARY STATISTICS Prerequisite: Grade of C or higher in MTH 100 or appropriate placement score This course provides an introduction to methods of statistics and includes the following topics: sampling, frequency distributions, measures of central tendency and variation, probability, discrete and continuous distributions, graphic representation, hypothesis testing, confidence intervals, regression, and applications. 3 Credit Hours MTH 270 PROBABILITY AND STATISTICS CONCEPTS Prerequisite(s): MTH126 or higher This course provides an examination of the theory and applications of probability and statistics based on topics from calculus. It includes
This course covers the use of precision measuring instruments. Emphasis is placed on the inspection of machine parts and use of a wide variety of measuring instruments. Upon completion students should be able to demonstrate correct use of measuring instruments. This course is aligned with NIMS certification standards. 3 Credit Hours
MTT 129 LATHE OPERATIONS Prerequisite: As required by the college
This course includes more advanced lathe practices such as set-up procedures, work planning, inner- and outer-diameter operations, and inspection and process improvement. Additional emphasis is placed on safety procedures. Upon completion, students will be able to apply advanced lathe techniques. 3 Credit Hours
MTT 136 MILLING OPERATIONS Prerequisite: As required by the college
This course covers manual milling operations. Emphasis is placed on related safety, types of milling machines and their uses, cutting speed, feed calculations, and set-up and operation procedures. Upon completion, students should be able to apply manual milling techniques (vertical and horizontal/universal) to produce machine tool projects. MTT 137/138 are suitable substitutes for this course. 3 Credit Hours MTT 139 BASIC COMPUTER NUMERICAL CONTROL Prerequisite: As required by the college This course introduces the concepts and capabilities of computer numeric control (CNC) machine tools. Topics include setup, operation, and basic applications. Upon completion, students should be able to develop a basic CNC program to safely operate a lathe and milling machine. This course is aligned with NIMS certification standards. 3 Credit Hours MTT 140 BASIC COMPUTER NUMERICAL CONTROL TURNING PROGRAMMING Prerequisite: As required by the college This course covers concepts associated with basic programming of a computer numerical control (CNC) turning center. Topics include basic programming characteristics, motion types, tooling, workholding devices, setup documentation, tool compensations, and formatting.
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