2012–2013 UNIVERSITY CATALOG - Florida Institute of Technology

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SPRING MAE 4242 Aircraft Stability and Control ................................................. 3 MAE 4261 Air-Breathing Engines ............................................................ 3 MAE 4292 Aerospace Engineering Design 2 (Q) ..................................... 3 Free Elective ........................................................................... 3 Humanities Elective ............................................................... 3 15 TOTAL CREDITS REQUIRED........................................ 133 *A list of recommended Technical Electives is available from the department. Up to six credit hours of Technical Electives may be replaced by the following: Flight 1 (AVF 1001), Flight 2 (AVF 1002), Aeronautics 1 (AVT 1001), Aeronautics 2 (AVT 1002). Mechanical Engineering, B.S. __________________ major Code: 7131 Degree awarded: Bachelor of Science age restriction: N admission status: undergraduate Delivery mode/s: classroom only Location/s: main campus Mechanical engineers are deeply involved in activities that are essential to our modern civilization. These activities include the research, development, design and testing of materials, structures and machines for the generation of power, transportation and the production of electricity by the conversion of energy from various sources including chemical, nuclear, solar and geothermal; conception and design of all types of machines that serve humans and their many needs; construction and operation of production machinery for the manufacture of materials and consumer products; and instrumentation, control and regulation of these and other types of manual and automatic mechanical systems. The mechanical engineering undergraduate curriculum at Florida Tech presents the fundamentals underlying modern mechanical engineering and prepares the student for a lifetime of continued learning. During the freshman and sophomore years, the emphasis is placed on mathematics and physics. An introduction to engineering in the freshman year previews the field and gives the students their first experience in engineering design. The sophomore and junior years direct the student toward the engineering sciences, including mechanics of solids, thermodynamics and fluid mechanics. During the junior and senior years, the study becomes progressively centered on the specific issues facing practicing mechanical engineers. The student uses the basic tools imparted during the first two years and applies them in studies of machine systems, instrumentation, automatic controls, thermal systems and design projects. Other courses taken during the last two years expand the student’s knowledge in the fields of thermal energy systems, heat transfer, electronics, vibrations and mathematics. Technical electives taken during the senior year allow the student to direct the program toward specific areas of personal interest. Laboratory experiences are essential to the education of engineers, and these are provided in chemistry, physics, computer-aided design, materials, fluids and heat transfer. The capstone of the educational process is the senior mechanical engineering design project, which synthesizes and focuses elements from the various disciplines into a design activity of current mechanical engineering interest. The faculty serve jointly in the supervision and consultation for these projects. The nuclear technology area of emphasis curriculum consists of four courses, available as free and/or technical electives. The objective is to train students from a broad spectrum of engineering disciplines (i.e., mechanical, electrical, civil and chemical) that will be needed to construct, operate, maintain and regulate nuclear power 142 Florida Tech plants and associated facilities. The nuclear technology curriculum is interdisciplinary. After graduation, the mechanical engineering student is prepared to pursue a career either in industry or government as a practicing engineer, or to enter graduate work in engineering, applied mechanics or mathematics. In some cases, mechanical engineering graduates also enter professional schools of medicine, law or business. Students are encouraged to define career objectives early in the program (preferably during the sophomore year) so that in consultation with faculty advisers, electives can be selected that are best suited to the achievement of specific goals. Educational Objectives The broad educational objectives of the mechanical engineering program at Florida Tech are: Academic fundamentals: Graduates have successfully applied and integrated their knowledge of fundamental principles in their chosen career. Engineering practice: Graduates have used their engineering skills in the successful completion of an engineering project. Teamwork and communication: Graduates have demonstrated the ability to communicate their ideas and technical results verbally, in writing and via presentations, and are effective team members. Professional development: Graduates have advanced their knowledge and contributed to the profession and society. Degree Requirements Candidates for a Bachelor of Science in Mechanical Engineering must complete the minimum course requirements as outlined in the following curriculum. For definitions of electives for engineering programs, see the Academic Overview section. Freshman Year FALL CREDITS ASC 1000 University Experience ............................................................ 1 CHM 1101 General Chemistry 1 .............................................................. 4 COM 1101 Composition and Rhetoric ...................................................... 3 MAE 1024 Introduction to Mechanical Engineering ............................... 3 MTH 1001 Calculus 1 ............................................................................... 4 Social Science Elective ........................................................... 3 18 SPRING COM 1102 Writing about Literature ........................................................ 3 CSE 150x Introduction to Software Development .................................. 3 MTH 1002 Calculus 2 ............................................................................... 4 PHY 1001 Physics 1 ................................................................................. 4 PHY 2091 Physics Lab 1 .......................................................................... 1 15 Sophomore Year FALL CREDITS CHE 3260 Materials Science and Engineering ........................................ 3 CHE 3265 Materials Lab ......................................................................... 1 COM 2223 Scientific and Technical Communication .............................. 3 MAE 2081 Applied Mechanics: Statics .................................................... 3 MTH 2001 Calculus 3 ............................................................................... 4 PHY 2002 Physics 2 ................................................................................. 4 18 SPRING MAE 2024 Solids Modeling and 3-D Mechanical Design Principles ...... 3 MAE 2082 Applied Mechanics: Dynamics .............................................. 3 MAE 3083 Mechanics of Materials .......................................................... 3 MAE 3191 Engineering Thermodynamics 1 ............................................ 3
MTH 2201 Differential Equations/Linear Algebra ................................... 4 PHY 2092 Physics Lab 2 .......................................................................... 1 17 Junior Year FALL CREDITS HUM 2051 Civilization 1 .......................................................................... 3 MAE 3090 Design of Machine Elements ................................................. 3 MAE 3161 Fluid Mechanics ..................................................................... 3 MAE 3192 Engineering Thermodynamics 2 ............................................ 3 MTH 3210 Introduction to Partial Differential Equation and Applications ..................................................................... 3 15 SPRING MAE 3024 Computer-Aided Engineering ................................................ 3 MAE 3064 Fluid Mechanics Lab ............................................................. 1 MAE 3091 Theory of Machines ............................................................... 3 MAE 4171 Principles of Heat Transfer..................................................... 3 MAE 4190 Design Methodologies and Practice (Q) ................................ 1 Humanities Core Course ....................................................... 3 Technical Elective .................................................................. 3 17 Senior Year FALL CREDITS ECE 4991 Electric and Electronic Circuits ............................................. 3 MAE 4024 Mechanical Vibrations ............................................................ 3 MAE 4071 Thermal Systems Design ........................................................ 3 MAE 4074 Heat Transfer Lab .................................................................. 1 MAE 4193 Mechanical Engineering Design 1 (Q) .................................. 3 Technical Elective ................................................................. 3 16 SPRING MAE 4014 Control Systems ...................................................................... 3 MAE 4175 Heating, Ventilation and Air Conditioning ............................ 3 MAE 4194 Mechanical Engineering Design 2 (Q) .................................. 4 Free Elective ........................................................................... 3 Humanities Elective ............................................................... 3 16 TOTAL CREDITS REQUIRED........................................ 132 GRADUATE DEGREE PROGRAMS Aerospace Engineering, M.S. ___________________ major Code: 8134 Degree awarded: Master of Science age restriction: N admission status: graduate Delivery mode/s: classroom only main campus, Extended Studies admission materials: GRE Location/s: main campus, Patuxent The master of science degree can be earned in one of three major areas: aerodynamics and fluid dynamics, aerospace structures and materials, and combustion and propulsion. Because the purpose of each program is to prepare the student for either a challenging professional career in industry or for further graduate study, the programs do not permit narrow specialization. Emphasis is on required coursework in several disciplines in which an advanceddegree engineer in a typical industrial position is expected to have knowledge and problem-solving expertise beyond that normally obtained during an undergraduate engineering education. The master of science degree can be earned on either a full-time or a part-time basis. Full-time students can complete the program in a minimum of three semesters (four in the case of graduate student teaching assistants). Students beginning their coursework during the spring semester will be able to register for full course loads, although the commencement of thesis work will normally be delayed. Graduate student teaching assistants are required to successfully complete a three-day teaching assistant seminar offered in August and January of each year. Admission Requirements An applicant should have an undergraduate major in a field related to aerospace engineering. Applicants whose bachelor’s degrees are in other fields are normally required to take some undergraduate coursework in addition to the program described below, as determined by the department head. Applications are also invited from graduates with undergraduate majors in the physical sciences or mathematics. In these cases, at least one year of undergraduate coursework in aerospace engineering is normally required before starting the master of science program. In evaluating an international application, due consideration is given to academic standards in the country where the undergraduate studies have been performed. Master’s applicants should take the GRE General Test. Applicants from foreign countries must meet the same requirements as applicants from the United States. General admission requirements and the process for applying are presented in the Academic Overview section. Degree Requirements The Master of Science in Aerospace Engineering is offered with both thesis and nonthesis options. Each option requires a minimum of 30 credit hours of coursework. Prior to the completion of nine credit hours, the student must submit for approval a master’s degree program plan to indicate the path chosen and the specific courses to be taken. For the thesis option, up to six credit hours of thesis work may be included in the 30 credit hourss requirement. The thesis can be primarily analytical, computational or experimental; or it can be some combination of these. In each case, students must demonstrate the ability to read the appropriate engineering literature, to learn independently and to express themselves well technically, both orally and in writing. For the nonthesis option, a student may replace the thesis with additional elective courses and a final program examination, following approval of a written petition submitted to the department head. Generally, students wishing to pursue an academic career are encouraged to choose the thesis option. Curriculum The program of study leading to the master’s degree in aerospace engineering is offered in the three listed areas of specialization. The minimum program requirements consists of nine credit hours of core courses, six credit hours of mathematics and 15 credit hours (which may include six credit hours of thesis) of electives. Within the 15 credit hours of electives, six credit hours of coursework are restricted electives. The department maintains a list of restricted electives for each specialization. The nine credit hours of core courses must be chosen in consultation with the student’s adviser from one of the lists below. Aerodynamics and Fluid Dynamics MAE 5110 Continuum Mechanics MAE 5120 Aerodynamics of Wings and Bodies MAE 5130 Viscous Flows MAE 5140 Experimental Fluid Dynamics MAE 5150 Computational Fluid Dynamics MAE 5160 Gas Dynamics MAE 5180 Turbulent Flows MAE 6130 Experimental Methods in Turbulence Degree Programs—College of Engineering 143
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2012-2013 University Catalog
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table of contents INSTITUTION OVERV
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Through the partnership, Florida Te
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The 65,000-sq.-ft. Evans Library is
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The Office of Career Management Ser
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The university provides varsity ath
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Institute for Energy Systems (IES)
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Collaborative International Researc
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Microelectronics Laboratory Susan K
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students via their Florida Tech ema
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Shirley J. Mataxis Engineering Scho
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tuitiOn and FEEs Tuition and other
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The health insurance requirement is
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acadeMIc oVeRVIeW gEnEral studEnt i
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Melbourne Campus and Extended Studi
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Under FERPA, the rights accorded to
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admission Guidelines Melbourne Camp
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1. Students may not take an equival
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courses, except for courses for whi
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Undergraduate Core Requirements A c
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Students who miss class must obtain
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The academic probation status is re
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Graduate Record Examination (GRE):
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academic unit at least one month in
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statute of limitations Master’s D
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Degree Progams College of aeronauti
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Fast Track Master’s Program for C
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Senior Year FALL CREDITS AVM 4201 A
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Senior Year FALL CREDITS AVM 4201 A
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Junior Year FALL CREDITS HUM 2051 C
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Typical Graduate Program Plan AHF 5
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Associate Professors Deborah S. Car
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SOC 1101 Human Behavior Perspective
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BUS 3601 Marketing Principles .....
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or international business. The over
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MTH 1702 Applied Calculus .........
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MTH 1702 Applied Calculus .........
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BUS 5601 Essentials of Business Dev
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BUS 5421 Managerial Economics .....
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espond to the complex business deci
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BUS 5651 Healthcare Policy ........
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with multiple missions covering all
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Additional information and site loc
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Eligibility Individuals designated
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Students with undergraduate credits
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Electives (2 courses) Chosen to emp
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Page 103 and 104: engineering majors, could reduce th
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Page 113 and 114: RESEARch Research activities of the
Page 115 and 116: SPRING COM 1102 Writing about Liter
Page 117 and 118: Degree Requirements The degree of d
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Page 121 and 122: Social Science Elective ...........
Page 123 and 124: Systems and Information Processing
Page 125 and 126: Wireless Center of Excellence (WICE
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Page 129 and 130: Environmental sciences offerings at
Page 131 and 132: and senior years. These projects en
Page 133 and 134: BUS 2211 Introduction to Financial
Page 135 and 136: with bachelor’s degrees in other
Page 137 and 138: OCE 5526 Advanced Coastal Engineeri
Page 139 and 140: OCN 5401 Principles of Physical Oce
Page 141 and 142: RESEARch The department of marine a
Page 143: exploration of Mars. The many spin-
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Page 153 and 154: SPRING COM 1102 Writing About Liter
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Page 167 and 168: Sophomore Year FALL CREDITS HUM 205
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Page 171 and 172: equivalent may not be able to regis
Page 173 and 174: SUMMER BEH 5450 Intensive Practical
Page 175 and 176: BEH 5500 Seminar in Conceptual Issu
Page 177 and 178: Year 2 FALL CREDITS PSY 5403 Applie
Page 179 and 180: Curriculum The curriculum for the d
Page 181 and 182: College of Science Dean hamid K. ra
Page 183 and 184: UNDergraDUaTe Degree PrograMs Bioch
Page 185 and 186: SPRING BIO 2801 Biometry...........
Page 187 and 188: Marine biology includes specialized
Page 189 and 190: Sophomore Year FALL CREDITS BIO 211
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strong biology emphasis. Electives
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Because the subject matter in gener
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Core Courses (12 credit hours) CHM
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cumulative GPA of 2.5, demonstrate
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MTH 1000 Precalculus...............
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Senior Year FALL CREDITS CHM 3301 A
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Education (19 credit hours) Minor C
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The degree is intended for students
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Admission Requirements The master
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Current Research and Methodologies
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DePARTMenT OF MATHeMATiCAL SCienCeS
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Science (18 credit hours) CHM 1101
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Applied Mathematics, Ph.D. ________
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Hamid K. Rassoul, Ph.D., space phys
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As the department has deemed some t
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SPS 3040 Fundamentals of Remote Sen
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Doctoral degree requirements are st
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the projects being pursued include
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AVF 2102 FLIGHT 4 COMMERCIAL PILOT-
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AVS 4000 AVIATION PHYSIOLOGY LABORA
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BEH 5301 APPLICATIONS OF BEHAVIOR A
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BIO 4550 COMPARATIVE VERTEBRATE ANA
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BME 4241 TRANSPORT IN BIOLOGICAL SY
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BUS 4001 RESEARCH 3 (1 credit). Eng
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BUS 5426 ENVIRONMENTAL AND RESOURCE
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BUS 5669 MASTERING PROJECT MANAGEME
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CHM 3002 PHYSICAL CHEMISTRY 2 (3 cr
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CIS 5230 OPERATING SYSTEMS (3 credi
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COM 5252 SEMINAR IN MARKETING COMMU
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CSE 1010 IDEAS AND IMPACT OF COMPUT
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CSE 5402 PROJECTS IN COMPUTER SCIEN
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CVE 5072 CONSTRUCTION CONTRACTS, LA
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ECE 4311 MICROELECTRONICS FABRICATI
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EDUCATION AND INTERDISCIPLINARY STU
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HEALTHCARE MANAGEMENT (online progr
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ENS 4911 ENVIRONMENTAL FIELD PROJEC
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HUM 2085 CRITICAL APPROACHES TO HUM
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LNG 1701 ELEMENTARY CHINESE LANGUAG
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MAE 4500 SPECIAL TOPICS IN MECHANIC
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MET 5001 PRINCIPLES OF ATMOSPHERIC
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MGT 5079 TRAFFIC MANAGEMENT (3 cred
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MGT 5500 INTEGRATED LOGISTICS MANAG
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MTH 5202 MATHEMATICAL METHODS IN SC
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OCE 5563 PORT AND HARBOR ENGINEERIN
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OCN 5902 SPECIAL TOPICS IN OCEANOGR
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PHY 4030 INTRODUCTION TO SUBATOMIC
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PSY 3543 PSYCHOLOGY OF THE WORKPLAC
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PSY 5554 PSYCHOTHERAPY MODELS: PSYC
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SPC 5066 SPACEFLIGHT HUMAN PHYSIOLO
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SYS 5310 SYSTEMS ENGINEERING PRINCI
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ERIC KLEDZIK, B.S. Vice President f
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office of the senior Vice president
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MICHAEL D. SHAW, Ph.D. Associate Pr
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BRADSHAW, J.M., Adjunct Faculty, Hu
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GRACE, M.S., Associate Dean, Colleg
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MANLEY, T.R., Professor, Management
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SALLEY, C.D., Adjunct Faculty, Reds
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WOMICK, J.H., Adjunct Faculty, Hamp
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eFerences ACADEMIC CAlENDARS Main C
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Summer 1 - 2013 Feb. 21 First day t
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AA As BA Bs Ms MBA MAt Med MsA eds
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NSELING & HOLOGICAL ERVICES 4 267 I
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Chemistry .........................
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Management, Graduate Certificate ..
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RG-928-1111
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2012–2013 UNIVERSITY CATALOG - Florida Institute of Technology

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