DESCRIPTIONS


EMA 4145 Physical Ceramics 2. S.
 Credits: 3; Prereq: EMA 4144.
Influence of ceramic microstructure on processing.
Chemical bonds, surface phenomena, forming energet-
ics, drying and firing kinetics. Diffusion, nucleation,
crystal growth, solid-solid and solid-liquid reactions.
EMA 4161C Polymer Physics. S.
 Credits: 4; Prereq: EMA 3066.
Solid state properties of amorphous and semicrys-
talline polymers.
EMA 4223 Mechanical Behavior of Materials. F.
 Credits: 3; Prereq: EGM 3520.
Plastic deformation and fracture of metals and alloys,
ceramics and polymers.
EMA 4224C Mechanical Metallurgy. S.
 Credits: 4; Prereq: EMA 4223.
Continuation of EMA 4223. Mechanical testing labora-
tory included.
EMA 4314 Energetics and Kinetics in Materials
Science. S.
 Credits: 3; Prereq: EMA 3010C.
Foundations of energetic, kinetic theory with applica-
tions to processes in materials science.
EMA 4324 Stability of Materials. F.
 Credits: 3; Prereq: EMA 4314 or consent of instructor.
Mechanisms, energetic and kinetics of corrosion and
degradation of engineering materials. Economic solu-
tions to degradation problems based upon design and
materials selection.
EMA 4614 Production of Electronic Materials. F.
 Credits: 3; Prereq: EMA 3413, EMA 4314.
Production of materials for use in solid state electronic
devices; nucleation and growth kinetics, solidification
of single phase alloys, segregation, dynamics of crys-
tal growth, selection of materials & growth tech-
niques, characterization.
EMA 4615 Compound Semiconductor Materials. S.
 Credits: 3; Prereq: EMA 3413, EEL 3396.
Physical properties of technologically important com-
pound semiconductor materials. Epitaxial growth
and practical application of compound semicounduc-
tor heterostructures.
EMA 4623 Process Metallurgy. F.
 Credits: 3; Prereq: PHY 3041 and CHM 2046.
Engineering aspects of mineral processing. Unit oper-
ations, flow sheets. Science and technology of metal
extraction with applications to specific ferrous and
non-ferrous metals.
EMA 4630C Metals Casting. S.
 Credits: 2; Prereq: EMA 3080L
Melting and solidification of metals and alloys includ-
ing heat flow, solute redistribution, casting defects,
micro- and macrosegregation. Foundry techniques
including sand casting, permanent mold casting,
investment casting and die casting.
EMA 4645 Processing of Ceramic Materials. S.
 Credits: 3; Prereq: EMA 3050.
Introduction to the technology and science of process-
ing ceramic materials, including traditional clay based
ceramics, modern technical ceramics, and glasses.
Topics include the nature of fine particles, forming
methods, and consolidation by heat.
EMA 4666C Polymer Processing. F.
 Credits: 4; Prereq: EMA 3066.
Major processing methods for polymers and polymer-
ic composites as related to the theological behavior of
these systems. Synthesis of polymers via industrial
processes.
EMA 4680C Metals Joining Processes and Design. F.
 Credits: 2; Prereq: EMA 4121; Coreq: EMA 4223.
Metallurgy of metals joining processes including labo-
ratory exercises in soldering, brazing, and welding.
Selection of processes and design of products manu-
factured by joining processes.


EMA 4714 Materials Selection and Failure Analysis. S.
 Credits: 3
Philosophy and practice of engineering selection of
materials. Case studies in product liability and failure
analysis.
EMA 4760 Plastics Engineering Design. S.
 Credits: 3; Prereq: EMA 4666C, EMA 4161C.
This course utilizes knowledge of processing and
properties of plastics for the proper design of prod-
ucts, molds, etc.
EMA 4851 Senior Welding Design 1. S.
 Credits: 2; Prereq: EMA 4680C.
Individual design and fabrication project emphasis on
structural design, weld design and protype fabrica-
tion. With EMA 4852 may be substituted for EMA
4913 and EMA 4914.
EMA 4852 Senior Welding Design 2. S, SS.
 Credits: 2; Prereq: EMA 4851 with "C" or better
Continuation of EMA 4851; manufacturing feasibility
study of design project development in EMA 4851.
EMA 4905 Individual Work.
 Credits: 1 to 4; Maximum of 8 credits. May be repeat-
edfor credit with change of content.
Selected problems or projects in the student's major
field of engineering study.
EMA 4913 Research in Materials Science and
Engineering 1. F, S, SS.
 Credits: 2
Short research problems in materials science and engi-
neering, usually including a final thesis.
EMA 4914 Research in Materials Science and
Engineering 2. F, S, SS.
 Credits: 2; Prereq: EMA 4913.
Continuation of EMA 4913.
EMA 4935 Special Topics.
 Credits: 1 to 3; Maximum of 8 credits.
Laboratory, lectures, or conferences covering specially
selected topics in materials science and engineering.
May be repeated with change of content.
EMA 4949 Co-Op Work Experience.
 Credits: Itt; Prereq: 4 EG classification; one term
industrial employment, including extra work according to a
pre-approved outline.
Practical engineering work under industrial supervi-
sion, as set forth in the College of Engineering
Regulations.
GRADUATE COURSES
Please refer to the Graduate Catalog for graduate
course listings.





 INSTRUCTIONAL STAFF 1992-93
Drake, D.A., Chair; Glover, J.; Nelson, C.W., Associate
Chairs; Alladi, K.; Bednarek, A.R.; Block, L.S.;
Brechner, B.L.; Brooks, J.K.; Cenzer, D.S.; Chen, Y.;
Crew, R.M.; Dinculeanu, N.; Edwards, B.H.; Ehrlich,
P.E.; Emch, G.G.; Fathi, A.; Flaminio, L.; Garvan, F.G.;
Groisser, D.J.; Hager, W.W.; Ho, C.Y.; Kalman, R.E.;
Keesling, J.E.; Khuri, R.L.; King, J.L.; Klauder, J.R.;
Larson, J.A.; Mair, B.A.; Majthay, E.; Martinez, J.;
McCracken, D.L.; McCullough, S.A.; Mitchell, W.J.;
Moore, T.O.; Popov, V.M.; Pop-Stojanovic, Z.R.; Rao,
M.K.; Robinson, G.R.; Robinson, P.L.; Saxon, S.A.;
Shen, L.C.; Sigmon, K.N.; Sin, P.K.; Smith, J.Y.; Smith,
R.L.; Stark, C.W.; Summers, S.J.; Tornwall, S.B.;
Townsend, M.D.; Turull, A.; Varma, A.K.; Vince, A.J.;
Voelklein, H.K.; Walsh, T.; White, N.L.; Wilson, D.C.;
Xu, C.Y.


Undergraduate Coordinator: Charles Nelson
Graduate Coordinator: Joe Glover
Office: Walker 201 (392-0281)
 ADMISSION TO THE MAJOR: Listed below
are the departmental requirements which must be met
in order to receive the Bachelor of Science or Bachelor
of Arts degree with a major in mathematics. Students
considering the possibility of a major in mathematics
are strongly urged to obtain from the Mathematics
Department office, Walker 201, a brochure which
gives additional and more detailed information
regarding the undergraduate major programs as well
as information on career options available to the
undergraduate mathematics major. The student is also
urged to regularly consult a departmental adviser.
 1. A student who satisfies both of the following
conditions will be admitted to the program uncondi-
tionally.
 a. At least two semesters of course work have
been completed at the University of Florida with a
GPA of at least 2.5 on this course work, or, if less than
two semesters have been completed at the University
of Florida, the student's GPA on all collegiate course
work is at least 2.5.
 b. MAC 3311 and MAC 3312, or equivalent,
have both been completed with a grade of C+ or bet-
ter in a combined total of at most three attempts
(including the grade of W).
 2. A student who has completed at least two
semesters of course work at the University of Florida
with an overall GPA of less than 2.0 will not be admit-
ted to the undergraduate mathematics program.
 3. Admission of a student with a GPA of 2.0 to
2.5 will be conditional and on a case by case basis.
 ACCELERATED BACHELORS/MASTERS
PROGRAM: The Accelerated Bachelors/Masters
Program is designed for superior students who have
the ability to pursue an accelerated program in mathe-
matics leading to a Master of Science or a Master of
Arts degree. The main feature of the program is that
up to 21 semester hours of approved graduate level
mathematics courses may be used as dual credit for
both the undergraduate and the graduate degree. All
requirements for both the Bachelor's degree and the
Master's degree must be met.
 THE MAJOR: The following course work must
be completed with a grade of C or better:
A. CORE COURSES Credits
Calculus: MAC 3311-2-3 or MAC 3472-3-4 12
Differential Equations: MAP 3302 3
Computer Programming
 CGS3422orCOC3110 2-3
Statistics: STA 4321 3
Linear Algebra: MAS 4105 4
Abstract Algebra: MAS 4301 3
Advanced Calculus (see NOTE):
 MAA 4102-3 or MAA 4211-2 6

 TOTAL 33-34

 NOTE: MAA 4226-7 may also be used to meet
the advanced calculus requirement; permission of a
mathematics department adviser is, however,
required. Credit toward meeting the requirements for
the major will be given for at most one of MAA 4211
and MAA 4102 and at most one of MAA 4212 and
MAA 4103.
B. ELECTIVE COURSES
Twelve (12) elective credits must be earned as follows:
Two of the four elective courses must satisfy one of
the elective packages; the remaining two elective
courses must be chosen from the elective list.
1. ELECTIVE PACKAGES
 Pure mathematics: One of the following
sequences: MTG 4302-3, MAD 4203-4, MAS 4107 and
MAS 4302, MHF 4102 and MHF 4203.


tt Grading is on S-U basis only.