Sophomore Year A. W. S. Chemistry 1, 2 5 5 Economics 1 3 Engineering 2 3 Health Education 1 2 Machine Shop 54, 55 5 5 Mathematics 7, 8 4 4 Physical Education Ill Speech 1 5 Technical Education 94, 95, 89 2 2 3 Electives 3 19 17 18 *If a student has not had advanced algebra in high school he should register for Mathematics 1. COURSES OF INSTRUCTION Shop Practice 51. Elementary Machine Practice. A course designed for those who have had no or very little machine shop training. Shop discussion (group and individual) and demonstrations are given in all basic fundamentals of lathe operation such as tool grinding, setting up apparatus, chucking in universal, independent and collet chucks, center drilling stock, facing, rough and finish turning, shoulder turning, radial and fillet forming, knurling, external and internal threading, drilling, reaming, boring and taper turning. Safety precautions are stressed in all phases. Some bench work and hand tool instruction are given. Five quarter hours. Autumn. Larson 52. Advanced Lathe Operation. Instruction is given in the machining of repair parts, tools and projects. Instruction is also given in advanced lathe operation, blind boring, acme and square threads, use of cat head, spider, steady reset and follow rest. Bench work with hand tools and job layout is stressed. Five quarter hours. Winter. Larson 53. Shaper Operation and Bench Work. A course giving shaper operation, setting up the job, use of clamps, parallels, and vise. Adjusting the stroke and speed of the machine for the job at hand. Doing jobs which give training in plain and angular shaping. Also cutting keyways, dovetails, etc. Advanced bench and layout work is given with more advanced lathe work. Five quarter hours. Spring. Larson 54. Do-All Operation. A course giving the do-all operation for cutting and fabrication of parts. Elementary milling machine operation such as setting up apparatus, clamping in the vise, and clamping on the table; plain milling and vertical milling, including going and straddle milling are taught; also advanced lathe, shaper, drill press and bench work. Five quarter hours. Autumn. Larson 55. Milling Machine Operation. A -course in milling machine operation including plain and angular milling. Use of dividing head in plain, differential and angular indexing. Elementary gear work is given; also advanced lathe, shaper, do-all, and drill press operation. Five quarter hours. Winter. Larson 56. Advanced Machine Shop. A course in advanced general machine shop operation, including lathe, shaper, drill press, do-all milling machine, bench work, and layout; the machining of machine repair parts and rough casting. Five quarter hours. Spring. Larson Trade Technical 61. Elementary Machine Shop. A course designed to give a discussion of problems and procedures connected with lathe nomenclature and each basic lathe operation. Mathematics of feeds and speed, thread depth, mating, parts, and calculation of machine setting for tapers are taught. Films, models, charts, and special aids are used. Five quarter hours. Autumn. Larson 62. Lathe Operation. A study of advanced lathe operations, advanced machining problems, accurate measuring and machining shaft cuts, machining sequence for saving time, production, habits, etc. Hand tools and bench work are discussed. Five quarter hours. Winter. Larson 63. Metal and Heat Treatment. Common metals and their treatment in storing of materials, S. A. E. numbers of steels, alloys, ferrous and non-ferrous metals; problems in bench layout and job layout; shaper nomenclature, feeds and speeds, mathematics in machining parts, etc., as they are connected with drill press and shaper operation. Five quarter hours. Spring. Larson 64. Do-All Nomenclature. A study of do-all nomenclature, job selector, welding blades, setting blade on machine, setting guides, contour sawing, filing, polishing and fabricating parts on a do-all in comparison with other machine shop machines; milling machine nomenclature, cutters, setting up machine for a job, elementary milling, and mathematics involved in the milling machine operation. Five quarter hours. Autumn. Larson 65. Milling Machine Mathematics. The mathematics involved in the use of the dividing head for plain differential and angular indexing and nomenclature; mathematics and procedures in cutting spur gears. Five quarter hours. Winter. Larson 66. Grinding' Machine Operation. A course designed to give training in abrasives, shapes, kinds, bonds, makes, and wheel manufacture. Advanced problems encountered in machining of production parts; job layout and job procedures in machining, castings, and machine parts are also given. Blueprints are studied, as well as current events in the machine shops of the nation. Five quarter hours. Spring. Larson