Technology — Engineering Graphics Technology — Manufacturing Technology sections, developments, pictorials and automated graphics. Prerequisite: Engineering Graphics 142. One lecture and three laboratories. W S (4) 144. Technical Drawing—View relationships, spatial visualization, and problems relating to points, lines and planes. Automated graphics is applied in selected units. Prerequisite: Engineering Graphics 143. One lecture and two laboratories. A S (4) 145. Dimensioning and Tolerancing for Interchangeable Parts—Review of dimensioning and tolerance with advance techniques of tolerances, classes of fits, form tolerancing, positional tolerancing as they apply to interchangeable and selective assembly parts. Prerequisite: Engineering Graphics 143, Machine Tool 127. Three lectures. A S (3) 250. Electronics Drafting—Review of basic drafting techniques, instruction and application of electrical and electronic symbols, block diagrams, schematic elements and diagrams, components and assemblies, connection diagrams, printed circuits, wiring and line diagrams. One lecture and two laboratories. A W S (3) 251. Applied Descriptive Geometry—A study of graphic analysis and solutions of typical three dimensional space problems; through the application of the principles of multiview projection and developments of plane and curved surfaces, revolutions, and vector geometry. Two laboratories. S (2) 280. Production Drawings—Advanced techniques of engineering drawings and documentation; details, assembly, and installation drawings and how they are developed and maintained in the production environment. Techniques of Photo Drafting are used in preparing various drawings along with preparation for microfilm storage according to MIL 9868C. One lecture and three laboratories. A (4) 282. Electro-Mechanical Drawing—Applications for electronics drafting in printed circuit design, fabrication, and packaging, techniques used in the design of electro-mechanical equipment. Prerequisite: Engineering Graphics 144, 145 and 250. One lecture and three laboratories. S (4) 284. Industrial Design—Principles involved in industrial design. Analysis, creation, and development of functional design in terms of tools, processes, forms, and materials. Advanced applications of computer graphics. Prerequisite: Engineering Graphics 144, 145, 280 and Manufacturing Technology 240. One lecture and three laboratories. W S (4) The Engineering Graphics Program offers two areas of specialization for drafting majors. Upon completion of the first- year courses, they may choose between Electro-Mechanical and Tool Design Drafting. The first-year program is a core program basic to both areas, while the second-year courses are organized to develop the students' technical knowledge and skills in a specific area. The courses are as follows: ENGINEERING GRAPHICS MAJOR (Example Only) Specialization: Electro-Mechanical Drafting Freshman Year Courses Credits Eng. Graphics 142, 143 144, 145 15 Tech. Education 114, 115, 117 15 Mfg. Eng. Tech. 132, 257 6 Machine Tool 127 3 English 101, 102 6 Physical Education (Selected) 3 48 Sophomore Year Courses Credits Eng. Graphics 280, 250, 282.... 11 Physics 111 5 Electronics Technology 110 .... 3 Economics 101 5 Selected Area Requirements.... 10 Mfg. Eng. Tech. 240, 244 6 Psychology 101 5 Health Education 100 2 Journalism 232 3 50 Specialization: Tool Design Freshman Year Courses Credits Eng. Graphics 142, 143 144, 145 15 Tech. Education 114, 115, 117 15 Mfg. Eng. Tech. 132, 257 6 Machine Tool 127 3 English 101, 102 6 Physical Education (Selected) 3 48 Sophomore Year Courses Credits Eng. Graphics 280, 284 8 Mfg. Eng. 301, 302, 236, 240, 244 16 Physics 111 5 Economics 101 5 Selected Area Requirements.... 8 Psychology 101 5 Health Education 100 2 Journalism 232 3 52 MANUFACTURING TECHNOLOGY This curriculum is to prepare students for employment as technicians. The skills learned can be utilized to perform such functions as engineering drafting, detail designing, time study, tool designing, experimental machining, inspection and quality assurance, production planning and control, engineering laboratory, and numerical control programming. 348 349