COLLEGES Degree Programs The mechanical engineering 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 have a cumulative grade point average of 2.0 or higher and a minimum combined grade point average of 2.5 in the pre- engineering technical courses, in accordance with College of Engineering admission protocol. A minimum grade of C is required in each cal- culus and physics course. Averages are calcu- lated based on all attempts. Graduation Requirements Completion of the curriculum with a mini- mum GPA of 2.00 in all UF, junior/senior level and EML course work. CURRICULUM LEADING TO BACHELOR OF SCIENCE IN MECHANICAL ENGINEERING Critical Tracking Criteria: Critical tracking courses for semesters 1-4 appear in bold; these courses must be com- pleted with a 2.5 GPA. FRESHMAN YEAR Semester 1 Fall Credits If you do not place out of ENC 1101, take it in the fall; if you do, take another GE category. Composition (GE)..................................................3 Hum anities (GE) ..................................................... 3 MAC 2311* Anal Geometry & Calc 1 (GE-M)..4 CHM 2045 General Chemistry (GE-P) ...........3 CHM 2045L General Chemistry Lab (GE-P).....1 Total 14 Semester 2 Spring ENC 2210* Technical Writing............................3 Social & Behavioral Sciences (GE) .......................3 MAC 2312* Anal Geometry & Calc 2 (GE-M)..4 CHM 2046 General Chemistry (GE-P) ...........3 CHM 2046L General Chemistry Lab (GE-P) ..... Total 14 SOPHOMORE YEAR Semester 3 Fall Credits Hum anities (GE)............................... .............. 3 Social & Behavioral Sciences (GE) ....................3. MAC 2313* Anal Geometry & Calc 3 (GE-M)..4 PHY 3048* Physics with Calculus 1 (GE-P)...3 PHY 2056L Physics 1 Lab (GE-P)................... Total 14 Semester 4 Spring Hum anities (GE)............................... .............. 3 CGS 2425 Computer Program for Engineers..2 EGM 3311*Intro to Engineering Analysis .......3 PHY 3049*Physics with Calculus 2 .............3. PHY 2056L Physics 2 Lab .................................1. Total 12 JUNIOR YEAR Semester5-Fall Credits EEL 3003 Elements of Electrical Engr..............3 EGM 2511*Engr Mechanics Statics .............3. EM A 3010 M aterials............................................3 EML 3100*Thermodynamics 1 ......................3 Total 12 Semester 6 Spring EEL 3303L Electrical Circuits Lab .................1. EGM 3400* Engr Mechanics Dynamics..........2 EML 3023 Comp Aided Graph & Design ......3 EML 3101 Thermodynamics 2......................3. EML 3520 Analytical Methods .....................3. Total 12 Semester 7 Summer EGM 3520* Mechanics of Materials .............3. EML 3005C Mechanical Design..........................4 EML 3301C Instrument & Measurement Lab ..2 Total 9 SENIOR YEAR Semester 8 Fall Credits EML 3262 Kinematics & Dyn Mach................ 3 EML 4220 Mechanical Vibrations....................3 EML 4312 Control Mech Engr Systems.......... 2 EML 4315L Controls Lab .................................... EML 4140* Heat Transfer 1.............................2. EML 4140L Thermal Science Lab 1.................... EML 4701* Fluid Dynamics 1 .........................2. Total 14 Semester 9 Spring EML 4500 Machine Design & Analysis..........3 EML 4141 Heat Transfer 2.............................2. EML 4141L Thermal Science Lab 2.................1. EML 4702 Fluid Dynamics 2.........................2. Technical Electives (Two)...................................... 6 Total 14 Semester 10- Fall EML 4321 Manufacturing Engr......................3. EML 4501 Mechanical System Design..............3 EML 4920 Professional Orientation..................1 Technical Electives (Two)...................................... 6 Total 13 Total Hours Required for Degree 128 * Grade of C or better required Nuclear and Radiological Engineering Nuclear and radiological engineering sci- ences comprises those fields of engineering and science directly concerned with the release, con- trol and safe utilization of nuclear energy and atomic and nuclear radiation for the betterment of mankind. Applications range over such broad topics as the use of radiation in medicine for treatment and diagnostics, the design, devel- opment and operation of nuclear reactor power systems, health physics, and the application of nuclear energy in space, industry and food pro- cessing areas. The nuclear or radiological engi- neer, by virtue of his/her engineering and sci- ence-based training, is in a unique position to contribute to the many diverse aspects of the nuclear energy field. The nuclear and radiological engineering program has sufficient flexibility so that the proper choice of electives will allow emphasis in nuclear power technology, health physics, engi- neering physics, nuclear instrumentation, radioisotope applications, radiation imaging, medical treatment and other specialized areas. A full complement of experimental facilities are available; major facilities include a 100 KW research and training reactor, a neutron activa- tion analysis laboratory, a local area network (LAN) built around a Sun SPARC Computer with multiple terminals and PCs and interface capability to the College of Engineering network and the main university computing facility (Northeast Regional Data Center). The depart- ment also has robotic research facilities along with a full immersion virtual reality facility as well as specialized nuclear instrumentation. Degree Programs The Department of Nuclear and Radiological 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. For further information and for assistance in curriculum planning, students interested in nuclear engineering should contact the nuclear engineering sciences undergraduate coordina- tor. Special Grade Requirements In addition to the college requirements for graduation, all nuclear engineering and nuclear engineering sciences majors must pass all required undergraduate department courses with a C average overall in these courses. Departmental Engineering Science and Technical Electives Students are encouraged to concentrate sev- eral elective courses in one discipline of their choice to achieve solid familiarity with this minor field of study. The engineering science design technical electives, chosen in consulta- tion with the department counselor, allow spe- cialization in such areas as reactor engineering, reactor operations, radioisotopes and nuclear radiation technology, and radiation and living systems. The following elective courses are available through the department: Courses Credits ENU 4104 Nuclear Engineering 2 ....................3 ENU 4185 Nuclear Reactor Fuel M management ....................................... 2 ENU 4144 Nuclear Power Reactor System s 1 ............................................. 3