ENGINEERING CGS 3530 Advanced Software Packages.......3 MAD 3400 Numerical Techniques ............2. EML 3023 Computer Assisted Drafting and D esign...................................... ................ 3 STA 4033 Mathematical Statistics with Computer Applications .............................2. Summary of Degree Requirements Credits Pre-Engineering Curriculum ........................54 Engineering Courses ...................................... 17 Materials Science Core Courses....................35 Specialty Courses............................................ 29 Total Requirements 135 Mechanical Engineering Mechanical Engineering is the professional field that is concerned with motion and the pro- cesses whereby other energy forms are convert- ed into motion. Mechanical engineers are the people who are responsible for conceiving, designing, manufacturing, testing, and market- ing devices and systems that alter, transfer, transform, and utilize the energy form that ulti- mately causes motion. Thus mechanical engi- neers reside at the very heart of the technological society in which we live. They are the people who make the engines that power ships, trains, automobiles, and spacecraft; they design the power plants which convert the ener- gy in fuels, atoms, waterfalls, and sunlight into useful mechanical forms; and they construct intelligent machines and robots as well as the gears, cams, bearings, and couplings that facili- tate and control all kinds of mechanical motion. The broad scope of Mechanical Engineering education makes it possible for a student pursu- ing a degree in this field to prepare for a wide variety of careers. The core of the curriculum in Mechanical Engineering is centered upon the fundamentals of scientific and mathematical logic. Electives are available wherein a student may develop specialized interests in the engi- neering aspects of heat, work, motion, and ener- gy conversion. Degree Programs: The Mechanical Engineer- ing department offers the following degrees: Bachelor of Science in Mechanical Engineering, Master of Engineering, Master of Science, the Engineer degree, and Doctor of Philosophy. Admission Requirements: Applicants should understand that admission to this program is a selective process. Admission will be based on a student's whole record including educational objectives, courses completed, quality of aca- demic record, and other important facts. Priori- ty in admission will be given to those students whose potential on the basis of the entire record indicates the greatest likelihood of success in the program. Applicants should have a pre-engineering program grade point average of 2.5 or higher and should have a 2.5 average in calculus cours- es and a 2.5 average in physics with calculus lec- ture courses. A minimum final grade of C is required in each calculus and physics course. Graduation Requirements: Completion of the curriculum with a minimum GPA of 2.00 in all UF, all upper division, and all EML course work. Curriculum Leading to the Bachelor of Science in Mechanical Engineering The following list of courses are those that must be completed to become eligible for the Bachelor's degree in Mechanical Engineering: Courses Credits Pre-Engineering Curriculum .......................55 Note: Pre-engineering courses must include CHM 2046 and CHM 2046L; and either ENC 2213 or ENC 3250, which may be used to satisfy part of the composition requirement. CGS 3422 Computer Programming for Engineers (FORTRAN) ........... .............2 EML 3023 Computer Assisted Drafting and Design...................................................... 3 EML 3520 Analytic Methods in Mechanical Engineering............................ .............. 3 EMA 3010C Materials ......................................3 EGM 3511 Engineering Mechanics-Statics....3 EGM 3400 Engineering Mechanics- Dynam ics .................................... ............... 2 or *EGM 3401 Engineering Mechanics- Dynamics Alternative................................. (3) EGM 3520 Mechanics of Materials ................3 EEL 3003 Elements of Electrical Engineering............................. ............... 3 EEL 3303L Electronics Lab 1 ........................1. EML 3005C Intro to Mech. Engr. Design.......4 EML 3301C Instruments and Measurements Lab......................................2. EML 3262 Kinematics and Dynamics of M achinery............................... .............. 3 EML 4321 Manufacturing Process..................3 EML 4312 Control of Mech. Eng. Systems ....2 EML 4315L Mechanical Controls Lab............1 EML 4220 Mechanical Vibrations...................3 EML 4500 Machine Analysis and Design 1...3 EML 4501 Machine Analysis and Design 2...3 EML 3100 Thermodynamics 1 ......................3 EML 3101 Thermodynamics 2 .....................3. EML 4140L Thermal Sciences Lab 1 .............1 EML 4141L Thermal Sciences Lab 2...............1 EML 4140 Heat Transfer 1 ............................2. EML 4141 Heat Transfer 2............................2. EML 4701 Fluid Dynamics 1 ........................2. EML 4702 Fluid Dynamics 2 ........................2. EML 4920 Professional Orientation ...............1 ** Technical Electives................................ .. 12 Total Hours Required 131 Minimum grade of C required. ** See Undergraduate Coordinator for accept- able technical electives. Nuclear Engineering Sciences Nuclear Engineering Sciences comprises those fields of engineering and science directly concerned with the release, control, and safe uti- lization of nuclear energy. Applications range over such broad topics as the design, develop- ment, and operation of nuclear reactor power systems to the applications of radiation in medicine, space, industry, and other related areas. The nuclear engineer, by virtue of his/her engineering and science-based training, is in a unique position to contribute to the many diverse aspects of this major component of the energy radiation field. The Nuclear Engineering program has suffi- cient flexibility so that the proper choice of elec- tives will allow emphasis in nuclear power technology, radiation safety, health physics, engineering physics, nuclear instrumentation, radioisotope applications, and other specialized areas. A full complement of experimental facili- ties are available; major facilities include a 100 KW research and training reactor, a neutron activation analysis laboratory, a local area net- work (LAN) built around a MicroVax Computer with multiple terminals and PCs and with inter- face capability to the College of Engineering network and the main university computing facility (Northeast Regional Data Center). This department also has plasma and laser research facilities as well as a large amount of specialized nuclear instrumentation. Degree Programs: The Department of Nuclear Engineering Sciences offers the following degrees: Bachelor of Science in Nuclear Engi- neering, Bachelor of Science (Nuclear Engineer- ing Sciences), Master of Engineering, Master of Science, Engineer, and Doctor of Philosophy. Also, students with special requirements may establish an interdisciplinary engineering pro- gram leading to the Bachelor of Science (see general College of Engineering regulations). For further information and for assistance in curriculum planning, students interested in nuclear engineering should contact the Nuclear Engineering Sciences undergraduate coordinator. Admission Requirements: Applicants should understand that admission to this program is a selective process. Admission will be based on a student's whole record including educational objectives, courses completed, quality of aca- demic record, and other important facts. Priori- ty in admission will be given to those students whose potential on the basis of the entire record indicates the greatest likelihood of success in the program. Applicants should have a cumulative grade point average of at least a 2.0 and a "C" average in pre-engineering technical course sequences (calculus, chemistry, and physics). Special Grade Requirements: In addition to the college requirements for graduation, all nuclear engineering and nuclear engineering sciences majors must pass all required undergraduate departmental courses and achieve at least a C average overall in these courses.