College of Applied Science and Technology 103 CS 1400 - Fundamentals of Programming Credits: (4) and CS 1410 - Object-Oriented Programming Credits: (4) ENGL 3100 - Professional and Technical Writing Credits: (3) or NTM 3250 - Business Communication Credits: (3) MATH 1220 - Calculus II Credits: (4) MATH 2210 - Calculus III Credits: (4) MATH 2250 - Linear Algebra and Differential Equations Credits: (4) or both MATH 2270 - Elementary Linear Algebra Credits: (3) and MATH 2280 - Ordinary Differential Equations Credits: (3) MATH 3410 - Probability and Statistics I Credits: (3) PHYS 2220 - Physics for Scientists and Engineers II Credits: (5) General Education Courses Required (40- 43 credit hours) • ENGL 2010 EN - Intermediate College Writing Credits: (3) prerequisite is ENGL 1010 Introductory College Writing (3) or equivalent American Institutions (AI) (3) MATH 1210 - Calculus I Credits: (4) Computer & Information Literacy (2) COMM 2110 HU - Interpersonal & Small Group Communication Credits: (3) Humanities and Creative Arts (HU/CA) (6) ECON 2010 SS - Principles of Microeconomics Credits: (3) Social Science and Diversity (SS/DV) (3) CHEM 1210 PS - Principles of Chemistry I Credits: (5) PHYS 2210 PS - Physics for Scientists and Engineers I Credits: (5) Life Science (LS) (3) Course Requirements for EE Major Second BS Degree Students that have completed a BS EET from a TAC ABET accredited program are required to take the following courses to obtain a BS in Electronics Engineering. • MATH 3410 - Probability and Statistics I Credits: (3) • EE 3010 - Electronic Circuits Credits: (2) • EE 3110 - Microelectronics I Credits: (4) • EE 3120 - Microelectronics II Credits: (4) • EE 3210 - Signals and Systems Credits: (4) • EE 3310 - Electromagnetics I Credits: (4) • EE 3610 - Digital Systems Credits: (4) Note: This assumes all prerequisite and University residency hours have been met. Refer to Second Bachelor's Degree under Graduation in the Academic Information section of this catalog. Department of Engineering Technology Department Chair: Rick Orr Location: Engineering Technology Building, Room 214 Telephone Contact: Pat DeJong 801-626-6305 Email: mmetdepartment@weber.edu Professors: George Comber, Kelly Harward, Daniel Magda, Rick Orr; Associate Professors: Mark Baugh, Kerry Tobin; Assistant Professors: Dustin Birch, Jeremy Farner, Christian Hearn, Megumi Leatherbury, Julanne McCulley, Glen West Engineering technology education focuses primarily on the applied aspects of science and engineering aimed at preparing graduates for practice in that portion of the technological spectrum closest to product improvement, industrial processes, and operational functions. The engineering technology programs at Weber State prepare individuals for a wide variety of positions in technology based business and industries. The study of engineering technology requires a knowledge of mathematical, scientific, and engineering principles in combination with a strong applications- orientation in support of engineering activities. The College of Applied Science & Technology offers AAS and BS degrees in the following engineering technology programs: • Design Engineering T echnolo gy • Electro nics E ngineer ing T echnolo gy • Manufacturing Engineering Technology • Mechanical Engineering Technology The BS degrees in these programs are accredited by the Technology Accreditation Commission of ABET, http://www. abet.org. Manufacturing Engineering Technology Location: Engineering Technology Building, Room 214 Telephone Contact: Pat DeJong 801-626-6305 Email: mfet@weber.edu The Weber State Manufacturing Engineering Technology program has been recognized as one of the outstanding manufacturing technology programs in the country. Students may choose among three emphasis areas within the Manufacturing Engineering Technology Program; Production Operations and Control, Welding, or Plastics and Composites. The Production Operations and Control emphasis area is designed to prepare the student for professional employment in industry by giving them fundamental knowledge and skills in abroad range of manufacturing disciplines and processes. These include process planning, tool and machine design, material selection and treatment, process automation, manufacturing resource planning, Six Sigma methods and tools in manufacturing, and lean manufacturing. State-of-the- art laboratories give the students hands-on experiences with CNC machine tools, robotics, programmable logic controllers, systems integration and the latest in a variety of CAD/ CAM systems. Year-long required senior projects have included satellites, hybrid electric vehicles and computer integrated manufacturing cells and others which help students gain confidence in their abilities while gaining additional insight and skills in both teamwork and human relations. The Manufacturing Engineering Technology with Welding Emphasis is designed to produce welding engineering technology graduates that are involved in the concept, design, engineering, and metallurgy of weldments and implementation of welding processes in any manufacturing Weber State University 2013-2014 Catalog