Pre-Engineering Automotive/Mechanial Engineering General Information 3. Chemistry, 5 credit hours minimum: Chem NS101 (5) OR NS121 (5). 4. Commun HU102 (3) and 3-5 additional credit hours of Gen. Ed. courses in Humanities, Soc. Science and/or Communications. (Over and above Humanities, Social Science and Communication requirement.) 5. Statics, Dynamics and Strength of Materials: For Manufacturing Engineering Technology majors (10 aedit hours minimum): Mechet 230 (5) and 331 (5). For Mechanical and Automotive Engineering Technology majors (18 credit hours minimum): Mechet 230(5), 331 (5X 471 (3) and 473 (5). For Electronic Engineering Technology majors (6 credit hours minimum): Prengr 350 (3) and 352 (3). 6. Materials and Processes (5 credit hours minimum): Mfentc 236 (5). 7. Electronics (12 credit hours minimum): Eltech 124 (5), 136 (5), 137 (2). 8. Computer Applications (9 credit hours minimum): Comsci 260 (4), Mfentc 345 (3) and Heme 355 (4). 9. Design Graphics (7 credit hours minimum): Dgtech 142 (4), 244 (3). (Mechanical & Automotive Engineering Technology) 10. Supervision Principles (3 credit hours minimum): Mfentc 456 (3). 11. Reliability: Inentc 360 (Optional for Manufacturing Engineering Technology students). 12. Senior Project (6 credit hours minimum): Auentc, Mechet, Mfentc 461 (2), 462 (2), 463 (2). For Electronic Engineering Technology majors: (7 credit hours minimum) Elentc 461 (1), 462 (3), 463 (3). Electronics Engineering Technology students are not required to take Dgtech 142, 244, Mfentc 236 and 345. PROGRAM: PRE-ENGINEERING PROGRAM ASSOCIATE OF SCIENCE DEGREE OPTIONAL Coordinator: W. Lee Dickson General Requirements: • The Pre-engineering program offers the first two years of the professional engineering curricula for chemical, civil, electrical, mechanical, aeronautical, mining, metallurgical, and geological engineering.These two-year curricula are designed to prepare the engineering student to transfer to the junior year of engineering at the senior college of engineering in the state of Utah and also to many other professional engineering colleges and universities. • In planning their program it is important for students to be aware of certain prerequisites to, and scheduling of, key courses. Students should consult their adviser since improper scheduling of courses can cause some delay in their graduation. • A grade of C or better is required. Specific Requirements: • Pre-engineering courses required (12 credit hours): Prengr 140 (1), 221 (5), 350 (3), 352 (3). • Support courses required: Math 211 (5), 212 (5X 213 (5), 320 (5), 451 (4), 452 (4), 453 (4), Chem NS121 (5), NS122 (5), 123 (5); Phsx NS261 (4), NS262 (4), NS263 (4), 264 (1), 266 (1>, Comsci 260 (4). PRE-ENGINEERING COURSES - PRENGR columns, capacities. Principles of algebra including simple equations. Principles of geometry and simple right triangle relationships. Four lectures. 113. Beginning Applied Algebra (5) Fundamentals of algebra: addition, subtraction, multiplications, and division of signed numbers, fractions, and algebraic expressions. Introduction to linear equations, exponents, parenthesis and factoring. Five lectures. 114. Applied Algebra (5) Review aids to mathematical solutions such as powers of ten, special products, factoring, fractions, linear equations, simultaneous linear equations, quadratic equations, radicals and exponents, complex numbers. Prerequisite: Reltec 113 or equivalent Five lectures. 124. Introduction to Digital Electronics (5) 115. Applied Trigonometry (5) A combined lecture-laboratory class which introduces the fundamentals Angles, natural functions and their graphs, identities, functions from digital electronics, e.g. number systems, codes, combinational Gf two angles and related formulas, solutions of triangles, logic, sequential logic, etc. Prerequisite: Reltec 114 or equivalent (ma> complex numbers. Prerequisite: Reltec 114 or equivalent be taken concurrently). Three one-hour lectures two 3-hour labs per pive lectures. week. 140. Engineering Orientation (1) 221. DC and Steady State AC Circuit Analysis (5) Ohm's law. KirchofFs laws and network theorems. Power in DC and AC circuits, LRC circuits. Fourier Analysis of functions. Prerequisite: Math 212 (may be taken concurrently). Four lectures and one-three hour lab a week. 292. Short Courses, Workshops, Institutes and Special Programs (1-6) In order to provide flexibility and to meet many different needs, a number of specific offerings are possible using this catalog number. When the number is used it will be accompanied by a brief and specific descriptive title. The specific title with the credit authorized for the particular offering will appear on the student transcript 350. Engineering Mechanics (3) Principles of static stress analysis, force systems, equilibrium of structures, distributed forces, friction, moments of inertia. Prerequisites: Math 212 or equivalent with a grade of "C" or better. 351. Strength of Materials (4) Continuation of Prengr 350. Stress analysis, torsion, elastic and inelastic bending, columns, beams, compound stresses, design of members. Prerequisite: Prengr 350 with grade of "C" or better. 352. Dynamics (3) Introduction to kinetics and momentum principles. Prerequisite: Prengr 350. 117. Applied Algebra and Analytic Geometry (5) Matrices, determinants of higher order, inequalities, plane analytic geometry, statistics and progressions. Prerequisite: Reltec 115 or equivalent Five lectures. 118. Applied Calculus (5) Limits, derivatives, indefinite integrals, definite integrals, methods of integration, and applications. Prerequisite: Rel- tecll7 or equivalent Five lectures. 119. Applied Calculus (continued) (3) Infinite series, multiple integrals, partial derivatives, differential equations, and applications. Prerequisites: Reltec 118 or equivalent Three lectures. DEPARTMENT OF AUTOMOTIVE AND MECHANICAL ENGINEERING TECHNOLOGY m RELATED TECHNICAL EDUCATION COURSES - RELTECH Related Technical Education offers service courses for students majoring in many areas of the School of Technology. 101. Shop Mathematics (4) Measurements, common and decimal fractions, square roots, surfaces, Chair: Robert P. Parker Location: Technical Education, Room 201 Telephone Contact: Barbara Voreis 626-6300 Professor: Ross W. Eskelson; Associate Professors: Richard K. DeMoss, Rondo H. Erickson, John K. Nelson, Robert P. Parker, J. Norman Smith, Blaine R. Thornock, Richard M. Vandenberg, Jr. The Department offers the following degrees: Automotive Engineering Technology (BS) Mechanical Engineering Technology (BS & AAS) Automotive Service Technology (AAS, Certificate, Diploma) Auto Body Technology (AAS, Certificate, Diploma) The programs of study offered by the Department are described below. From time to time, changes are made in the programs based on input fiom the Advisory Committees, accreditation requirements and consensus of the faculty. Students can avoid problems associated with changes in the program by obtaining a written contract from the Department which lists the courses required.The Department recommends that students initiate a contract early in the program, i.e., as soon as the student has the intent to pursue and complete the program. Generally, this is expected to occur during the freshman year. Students who have a contract proceed to fulfill the requirements of that conlract regardless of subsequent changes in the program made by the Department If a required course is deleted from course offerings, then the Department will propose and accept an appropriate substitute. The guidelines for students who have not initiated a contract but have taken courses as per the Program Description of the WSC catalog in anticipation of completing the degree requirements are as follows: 1. The current, approved program is the only basis for a new contract 2. Courses under an "old" program that were taken before the program change was approved by the Faculty Senate will be accepted as an appropriate substitution for courses in the current program. 3. "New" courses in the current program will be required in all new contracts written and will be excused only in the event they are replaced by appropriate substitutions as per paragraph 2 above. Judgments as to appropriate substitutions, as mentioned above, will be made by the Department Chair. AUTO WOY ~~~ —— TECHNOLOGY PROGRAMS Adviser: Richard M. Vandenberg, Jr. Objective The Auto Body program prepares the student for employment in automotive collision repair and refinishing. Students are encouraged to complete an Associate Student Services Interdisc. Programs Allied Health Sciences Arts & Humanities Business & Economics Education Natural Sciences Social Sciences 216 217 Continuing Education