116 College of Applied Science & Technology based on engineering science and mathematics. Integrated into many of the courses are laboratory and project oriented experiences that teach the practical, hands-on aspects of mechanical engineering technology. A balanced blend of engineering science and practical applications provides the mechanical engineering technologist the knowledge and skills needed to be successful in today's technical workplace. Mechanical engineering technology has led to numerous opportunities for exciting, creative and rewarding careers in a wide range of industries including aerospace, automotive, electronics, manufacturing, medical equipment, mining and power generation. Design Engineering Technology Location: Engineering Technology Building, Room 214 Telephone Contact: Pat DeJong 801-626-6305 Email: designengineering@weber.edu The Design Engineering Technology program prepares students to develop product design and development drawings and 3D models as well as architectural designs, construction documents and Building Information Models (BIM), reports, presentations, technical illustrations, interactive multimedia, and animations for industry. Students will develop their graphical skills, techniques, concepts, and management skills through exercises and projects. They will work in mechanical, electrical, architectural, structural, and overall project management areas. Students will use calculators, computers, handbooks, and engineering reference materials while applying various mathematical concepts from geometry, algebra, and trigonometry. Electronics Engineering Technology Location: Engineering Technology Building, Room 214 Telephone Contact: Pat DeJong 801-626-6305 Email: jmcculley@weber.edu The Electronics Engineering Techno logy AAS degree prepares graduates to specify, install, operate, troubleshoot, and modify computers, automated programmable controllers, and electronic systems. It is designed to give the student fundamental knowledge and basic skills in robotics, automation, electronic manufacturing, fabrication, testing, and troubleshooting. The Electronics Engineering Technology Bachelor of Science (BS) degree is designed to continue a student's education beyond the associate's degree level. It is intended to provide the student with knowledge and skills in problem solving, critical thinking, project management, team building, and engineering research to identify, evaluate, analyze, and solve complex computer and electronic related technical problems. Design Engineering Technology (AAS) • Grade Requirements: A grade of "C" or better in all DET, MFET, technical courses, and support courses (a grade of "C-" is not acceptable) in addition to an overall GPA for all courses of 2.00 or higher. • Credit Hour Requirements: 64-66 total hours (depending on which math option is chosen) are required (24) of which are required within the Design Engineering Technology AAS program. A minimum of 20 hours in residency (WSU courses). Advisement All Design Engineering Technology students are required to meet with a faculty advisor at least annually for course and program advisement. Call 801-626-6305 for more information or to schedule an appointment. Advisement may also be obtained in Engineering Technology, room 214. Admission Requirements Declare your program of study (see Enrollment Services and Information). No special admission or application requirements are needed for this program. General Education Refer to the Degree and General Education Requirements for Associate of Applied Science requirements. Major Course Requirements for AAS Degree Design Engineering Technology Courses Required (24 credit hours) DET 1010 - Introduction to Engineering & Technical Design (Solidworks) Credits: (3) DET 1160 - Geometric Dimensioning & Tolerancing Using 3D CAD Credits: (3) DET 1040 - Introduction to Residential Architecture (AutoCAD) Credits: (3) DET 1350 - Residential Architectural Design Credits: (3) DET 2000 - Introduction to Commercial Architecture & BIM (Revit) Credits: (3) DET 2460 - Product Design Fundamentals Using 3D CAD Credits: (3) DET 2650 - Product Design & Development Credits: (3) DET 2660 - Architectural Structural Design & Detailing Credits: (3) Technical Support Courses Required (9 credit hours) • MFET 1210 - Machining Principles Lecture/Lab I Credits: (3) • MFET 2360 - Manufacturing Processes and Materials Credits: (3) • MFET 2410 - Quality Concepts and Statistical Applications Credits: (3) Technical Electives (2 credit hours minimum) A minimum of 2 credit hours of technical electives chosen from the following list or approved by the program coordinator are required. • EET 1110 - Basic Electronics Credits: (2) • EET 1140 - DC Circuits Credits: (3) * • EET 1850 - Industrial Electronics Credits: (4) • MFET 2150 - Metal Forming, Casting and Welding Credits: (2) and • MFET 2150L - Metal Forming, Casting & Welding Lab Credits: (l) • MFET 2440 - Computer Numeric Control (CNC) in Manufacturing Credits: (2) and • MFET 2440L - CNC in Manufacturing Lab Credits: (l) Weber State University 2015-2016 Catalog