Technology — Engineering Graphics Technology — Engineering Graphics 225. Production Drawings (Formerly Engineering Graphics 280)—Advanced techniques of engineering drawing and documentation details, assembly and installation drawings and how they are developed and maintained in the production environments. Techniques of photodrafting are used in preparing various drawings along with preparation for microfilm storage according to MIL 9868 C. One hour lecture and three 3-hour laboratories a week. A (4) 235. Electro-Mechanical Drawing (Formerly Engineering Graphics 282)—Applications for electronic drafting in printed circuit design, fabrication, and packaging, techniques used in the design of electro-mechanical equipment. Prerequisites: Engineering Graphics 145, and 215. One hour lecture and three 3-hour laboratories a week. S (4) 245. Photogrammetry—A training program in the operation of stereoscopic instruments for producing planimetric and topographic maps, an introduction to the principles of photogrammetry. Prerequisites: Related Technical Education 115 (may be taken concurrently). Three 1-hour lectures and two 3-hour laboratories a week. W (5) 255. Computer Graphics (Formerly Engineering Graphics 288)—Introduction to computer aided design; systems, hardware, software, and plotting equipment. Plotting programs developed utilizing design-drafting areas with BASIC and FORTRAN IV languages. Prerequisites: Related Technical Education 117, Data Processing 260, consent of instructor. W Su (3) 260. Architectural Drawing (Advanced) (Formerly Pre- Architecture 232)—Special features of construction. Prerequisite: Pre-Architecture 231. One hour lecture and two 3-hour laboratories a week. W (3) 261. History of Architecture (Formerly Pre-Architecture 210)—Architectural origins and early forms; primitive, Egyptian, Aegean; summation of early types. Three lectures a week. S (3) 262. Mechanical Equipment of Buildings (Formerly Pre- Architecture 211)—Heating requirements, ventilation, plumbing and drainage, refrigeration and air conditioning. Prerequisite: Physics 111. One hour lecture and two 3-hour laboratories a week. S (4) 263. Elements of Applied Electricity (Formerly Pre-Architecture 215)—Electricity as applied to buildings, conductors, wire capacities, and standard practices. Prerequisite: Physics 111. Three 1-hour lectures and two 3-hour laboratories a week. S (5) 264. Estimating and Building Contracts (Formerly Pre- Architecture 227)—Figuring material and labor costs, profit and overhead as applied to buildings. Prerequisite: Engineering Graphics 149 or equivalent. One hour lecture and two 3-hour laboratories a week. S (3) 265. Mechanics Applied (Formerly Pre-Architecture 104) —Fundamental principles of material, equilibrium and forces, simple machines, bridge and roof trusses, centroids, and moment of inertia. Prerequisite: Mathematics 106. Four periods a week. A (4) 266. Structural Design Applied (Formerly Pre-Architecture 105)—Bar stress for fixed and moving leads and design of beam and truss members. Prerequisite: Mathematics 106. Two 1-hour lectures and two 3-hour laboratories a week. S (4) 267. Reinforced Concrete Design Applied (Formerly Pre- Architecture 106)—Design and control of concrete mixtures, area footings and sizes and strength of reinforced columns. Prerequisite: Mathematics 106. One hour lecture and three 3- hour laboratories a week. S (4) 289. Cooperative Work Experience—Open to all second year majors in Engineering Graphics upon approval of the department chairman. The course will be developed between the student, the program director, and a suitable employer providing the opportunity for on-the-job experience. A one-hour seminar will be conducted weekly in which actual job assignments and problems will be discussed. Evaluation of course participants will be shared between the employer and the program director. One to three credit hours a quarter; may be repeated for a maximum of 9 credit hours. A W S Su (1-3) The Engineering Graphics program offers four years of specialization for design-drafting majors. Upon completion of the first year courses, the student may choose between Electro- Mechanical, Tool Design, Civil and Architectural Technology programs. The first year program is a basic program intended to provide the individual with the background and experience necessary to enter the sophomore year. Courses in the second year are organized to develop the student's technical knowledge and skills in a specific area. The courses are as follows: 362 363