INDUSTRIAL ARTS MAJOR (Example Only) Freshman Course Title A W S English 1, 2, 3 Basic Communication 3 3 3 Technical Education 13, Algebra, Trigonometry, 14, 15 or College Algebra 5 5 5 Mathematics 14, 18, 21 Speech 1 Principles of Public Speaking 3 Art 30 Basic Design 4 Physical Education Selected 1 1 Art 5 Introduction to Art 3 Music 5 Introduction to Music 3 Industrial Drafting 22, Mechanical Drawing 2 4 4 23, 24 — — — 16 17 16 Sophomore Course Title A W S English 5 Introduction to Literature t 3 Machine Tool 27 Machine Shop 3 Welding 85 Welding Processes 3 Machine Tool 3 Machine Processes 5 Electronics 141, 142, Fundamentals of Elec 143 tronics 3 3 3 Approved Electives Selected 5 Crafts Selected 3 Area Requirements Selected 9 5 5 18 16 16 Department of Industrial Drafting Assistant Professor Richard S. Best The curriculum in Industrial Drafting prepares the student for employment as an Industrial Drafting Technician after completion of two years of study. Completion of the program will qualify a student to receive an Associate of Science Degree. Courses of Instruction 21. Blueprint Reading and Sketching—Principles of blueprint reading and sketching as applied to industry. For pre-college students. Five laboratories. Su (5). Staff 022. Mechanical Drawing—Basic drawing practices to include: lettering, visualization of size and shape, use and 286 care of instruments, geometrical principles, symbols, drawing to scale, multiview, and dimensioned drawings. Fore pre- lege students. Two to five laboratories. Su (5). Staff I. Blueprint Reading and Sketching—Principles of blueprint reading and sketching applied to industry. Two laboratories. AWS (2). Best II. Mechanical Drawing—Basic drawing practices to include: lettering, visualization of size and shape, use and care of instruments, geometrical principles, symbols, drawing to scale, multiview, and dimensioned drawings. Two laboratories. AWS (2). Best 22. Mechanical Drawing—Basic drawing practices to include: Lettering, visualization of size and shape, use and care of instruments, geometrical principles, sketching, drawing to scale, multiview and dimensional drawings, and units in programmed blueprint reading. Three laboratories and 1 lecture. AWS (4). Best 23. Mechanical Drawing—Continuation of Industrial Drafting 11, including lettering, sectional, primary, pictorial, revolutions, intersections and development drawings; working and assembly drawings. Three laboratories and one lecture. W S (4). Best 24. Mechanical Drawing — Continuation of Industrial Drafting 23, including threads, fasteners, springs, clearance, tolerances, fits, graphic representation, power transmission devices, welding symbols, use of reference materials. Three laboratories and one lecture. S (4) Best 51. 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. Prerequisite: Mfg. Eng. Tech. 18 or equivalent. Two laboratories. S (2). Staff 52. Applied Descriptive Geometry—Geometrical principles using the folding line to solve problems of line, surfaces, angles, intersections, auxiliary, section, and combinations. Three laboratories and one lecture. Prerequisite: Industrial Drafting 24. A (4). Best 53. Elements of Design—Introduction to design and elementary research; planning small units using applied geometrical principles, references, tool and machine operations and working drawings. Prerequisite: Industrial Drafting 24 and Technical Ed. 15 or Math 18. Three laboratories and one lecture W (4). Best 287