DESIGN GRAPHICS ENGINEERING TECHNOLOGY COURSES - DGET DGET 1050. Basic Drafting (3) 5m, F, Sp A beginning course for two and four year technology students who need a related drafting class, and students wanting to explore a drafting class. Includes sketching, instruments and their use, lettering, geometric construction, shape and size description, sectional views, auxiliary views, threads and fasteners, and an introduction to working drawings. DGET 1060. Fundamentals of Drafting Using 3D CAD (3) F, Sp A beginning course for two and four year technology majors, students who need a related drafting class, and students wanting to explore a drafting class. Includes sketching, CAD modeling, geometric construction, shape and size description, orthographic projection, sectional views, auxiliary views, threads and fasteners, and an introduction to working drawings. Three hours of lectures per week. Lab time as required. DGET 1150. Blueprint Reading (3) F, Sp The abbreviations, symbols, terms, principles, and procedures for reading blueprints. Introduction to orthographies, oblique, isometric and perspective sketching. DGET 1160. Documentation Using 3D CAD (3) F, Sp The use of CAD to create industrial level production working drawings. Includes ANSI standards, precision dimensions, fits and tolerances, surface finishes, symbols for welding, piping, etc., machine elements and processes, sheet metal, 3D wireframe, menu customization, and surface and solid modeling, Geometric Dimensioning and Tolerancing (GD&T) basics, and descriptive geometry. Three lectures per week, Prerequisite: DGET 1060. DGET 1250. Computer Aided Drafting (3) Su, F, Sp An introduction to the fundamentals of computer aided drafting. An overview of CAD terminology and hardware. The use of CAD to create working drawings. Prerequisite: DGET 1050 or equivalent. This course may be taken concurrently with DGET 1050. DGET 1260. 3D Computer Aided Drafting (3) F, Sp The use of CAD to create industrial level working drawings. Includes ANSI standards, precision dimensions, fits and tolerances, surface finishes, machining processes, 3D wireframe, menu customization, and surface and solid modeling. Prerequisites: DGET 1150 and 1250. DGET 1340. Architectural Drafting for Interior Design (3) F A beginning course for Interior Design students who need an introduction to basic drafting board skills including sketching, instruments and their use, lettering, geometric construction, shape and size description. Also an introduction to the fundamentals of architectural working drawings and procedures used in developing a set of residential plans, including architectural standards, design procedures and building requirements. DGET 1350. Basic Architectural Drafting (3) F, Sp The study of architectural working drawings. Covers procedures used in developing a complete set of residential plans using CAD. Includes architectural drafting standards, design procedures, and building code requirements. Prerequisites: DGET 1050 and DGET 1250. DGET 1360. Fundamentals of Architectural Drafting Using CAD (5) F, Sp The study of architectural working drawings. Covers procedures used in developing a complete set of residential plans. Includes architectural drafting standards, design procedures, and building code requirements. CAD applications will be used in the development of architectural documents. 101 DGET 2350. Advanced Architectural Drafting (4) F, Sp The use of CAD in generating the working drawings for a small commercial structure. Includes layout and dimensioning of an index sheet, floor plan, footing and foundation plan, elevations, site plan and the detail drawings needed to support the commercial structure. Prerequisite: DGET 1360. DGET 2450. Geometric Dimensioning and Tolerancing (2) Instruction in geometric dimensioning and tolerancing per current ANSI standards as it applies to dimensioning machine parts for interchangeability Hands-on verification of geometric tolerances. Prerequisite: DGET 1250 and MFET 1210. DGET 2460. Design Fundamentals Using 3D CAD (3) F, Sp Design is the creative process of applying scientific and mathematical principles, experience, and judgment to the development of the solution of a technical product or system to meet a specific need. Turning ideas into design will incorporate problem identification, market research and brainstorming possible solutions, develop detailed part and assembly drawings, implementation, and evaluation. Sketching, gears/cams/shafts, advanced GD&T, tolerance buildup, tolerances for assemblies, introduction to rapid prototyping, and CNC design for manufacturing concepts will be presented. Advanced 3-D modeling software applications will include: library of parts, assembly constraints, motion constraints, drive constraints, and adaptive design. Three lectures per week Prerequisite: DGET 1160. DGET 2650. Advanced Mechanical Drafting and Design (3) Sp Uses CAD to lay out advanced production drawings and design. Uses the Machinery's Handbook, ANSI standards, geometric dimensioning and tolerances and manufacturer's reference materials. Supports the design and drafting required for senior project. Prerequisite: DGET 2460. DGET 2660. Structural Detailing (3) Sp General course using CAD covering AISC standard detailing, welding symbols, connections, details, shapes and plates. Design of bolted and welded connectors, beams, columns and framing. Prerequisites: MATH QL1080 (or MATH QL1050 & 1060) and DGET 1360. DGET 2830. Directed Readings (1-3) F, Sp Directed readings in Design Graphics Engineering Technology including mechanical and architectural areas. Must have department approval. DGET 2890. Cooperative Work Experience (1-3) 5m, F, Sp Open to all advanced students in Design Graphics Engineering Technology. Department approval required before registration. Provides academic credit for on-the-job experience. Grade and amount of credit will be determined by the department. DGET 2920. Short Courses, Workshops, Institutes and Special Programs (1-4) F, Sp Faculty approval required. Consult the semester class schedule for the current offering under this number. The specific title and credit authorized will appear on the student transcript. DGET 3100. Tool Design (3) F Tool design principals used for workpiece control in manufacturing and production. Topics include responsibilities of a tool designer, the design process, economics of design, tooling materials, and tool drawings and specifications. Other topics will include jigs, fixtures, gages, dies and tooling required by specialized manufacturing processes. Prerequisites: MFET 1210 and DGET 2460, DGET 2650 and MATH QL1080 (or MATH QL1050 and MATH 1060). General PROFILE ENROLLMENT STUDENT AFFAIRS ACADEMIC INFO DEGREE REQ GENED Engaged Learning & Interdisciplinary OUR/CBL HNRS/BIS ESL LIBS INTRD MINORS Applied Science & Technology AUSV/ATTC CMT CEET/EE CS MFET/ETM MET DGET ENGR IDT SST TBE Arts & Humanities MPC/MENG COMM ENGL FL DANC MUSC THEA ART/ARTH Business & Econ MBA MACC/MTAX ACTG BS AD/FIN MGMT MKTG SCM ECON/QUAN 1ST Education MSAT/MED CHF AT/HLTH NUTR/PEP/REC HPHP COURSES ATHL/PE EDUC Heaifh Professions MHA/MSN MSRS DENT PAR HTHS HAS/HIM MLS NRSG RADT DMS/NUCM RATH REST Science BTNY CHEM GEO MATH/MTHE MICR PHYS/ASTR ZOOL Social & Behavioral Sciences MCJ/CJ ECON GEOG HIST POLS/PHIL PSY SW/GERT SOC/ANTH AERO MILS NAVS Continuing Ed Davis Campus Weber State University 2011-2012 Catalog