Technology — Automotive Engineering Technology Technology — Automotive Engineering Technology AET 100 6 EET 343 3 AET 110 6 IET 334 3 AET 120 6 IET 472 3 AET 200 6 MET 450 4 AET 210 6 Tech. Ed. 114 5 AET 220 6 Tech. Ed. 115 5 AET 300 3 Tech. Ed. 117 5 AET 310 3 Tech. Ed. 118 5 AET 320 3 *Chemistry 101 5 AET 330 3 * Physics 111 4 AET 400 3 * Physics 112 4 AET 410 3 Eng. Graphics ! 115 2 AET 499 3 Mach. Tool 127 3 EET 341 5 Welding 165 2 Option #1 If you plan to graduate with a bachelor of science degree in Automotive Engineering Technology, you must complete the following classes in addition to those listed in the Automotive core: Physics 113 4 Data Proc. 260 3 Communication 326 3 Eng. Graphics 117 2 IET 330 5 IET 332 5 Option #2 If you plan to graduate with a bachelor of science degree in Automotive Technology, you must complete the following classes in addition to those listed in the Automotive core: Accounting 202 4 Management 301 3 Economics 101 4 Management 13 (selected upper division) COURSES OF INSTRUCTION 100. Brakes and Suspension Systems—Theory, operation, application and maintenance of suspension and brake systems of passenger cars, over-the-road vehicles, and off highway vehicles. Three lectures and three 3-hour laboratories a week. A (6) 110. Driving Mechanisms—Clutches, transmissions, drive lines, U-joints, differentials and drive axles in automotive and prime-mover applications. The principles of operation and maintenance. Three lectures and three 3-hour laboratories a week. W (6) 120. Internal Combustion Engines—Theory, operation appli cation and maintenance (both preventative and overhaul) of automotive, over-the-road and off highway IC engines. Three lectures and three 3-hour laboratories a week. S (6) 200. Electrical Systems—Fundamentals of electricity as it pertains to automotive applications such as batteries, starting, charging, ignition, lighting, and related systems. Operation, testing, diagnosing and proper maintenance procedures. Three lectures and three 3-hour laboratories a week. Prerequisite: Automotive Engineering Technology 120. A (6) 210. Fuel Systems—Carburetion and fuel injection systems on gas and diesel IC engines. Theory, operation application and maintenance of these systems. Three lectures and three 3- hour laboratories a week. Prerequisite: Automotive Engineering Technology 120. W (6) 220. Engine Tune-Up—Trouble diagnosis and testing procedure of electrical and fuel systems that support IC engines. Acceptable and proven PM procedures are covered. Three lectures and three 3-hour laboratories a week. Prerequisite: Automotive Engineering Technology 200 and 210. S (6) 300. Fuels and Lubricants—Nature of fuels and lubricants, their characteristics, families, tests, additives, and performance as related to IC engines. Prerequisite: Chemistry 101 or 111, Automotive Engineering Technology 210. A (3) 310. Electrical Systems, Advanced—Operation, PM, testing and application of AC and DC charging systems, transistor and CD ignition systems, electric drives and controls. Prerequisite: Automotive Engineering Technology 200, Related Technical Education 117. Three lectures. S (3) 320. Automatic Transmissions, Advanced—Automatic and power shift transmissions will be studied. Their application in light and heavy duty areas will be covered. PM, testing and rebuilding will be studied. Prerequisite: Automotive Engineering Technology 110. W (3) 330. Metal Refinishing—Application of proper methods of straightening and painting various panels and other sheet metal using the latest products and equipment found in trade and industry. Two 3-hour lecture-laboratory combinations. W (3) 340. Diesel Power Selection—Selection and installation of diesel equipment, including construction of bases and other items essential to set up a diesel plant. Three lectures. A (3) 350. Electric Drives—Principles and fundamentals of elec- 288 289