108 / FIELDS OF INSTRUCTION


integral approximations. Phenomenological treatment of turbu-
lent transport.
EML 6157-Radiation Heat Transfer (2) Prereq: MAP 3302, EML
4140. Thermal radiation theory and analysis.
EML 6157-Special Topics in Heat Transfer (3) Prereq: EML
4140.
EML 6254-Advanced Noise Control (3) Prereq: EML 5224 or
consent of instructor. Advanced topics of application of funda-
mental fluid dynamics and dynamics of machinery to quieting
industrial noise sources.
EML 6272-Dynamics of Mechanical Systems (3) Prereq: EML
4220. Comprehensive coverage of the dynamic analysis of
mechanical engineering systems.
EML 6274-Dynamic Synthesis of Direct Contact Mechanisms
(3) Prereq: EML 4501. The design of direct contact mechanisms
by classical techniques of rigid body systems and finite dif-
ferences applied to systems composed of elastic components.
EML 6275-Coplanar Kinematic Synthesis I (3) Prereq: EML
3260. Multiply separated position theory for 3, 4, and 5 posi-
tions of the moving system. Curvature transformation, circle
point curves, and Burmester point theory. Treatment is
analytical, with emphasis on the theory of algebraic curves.
EML 6276-Coplanar Kinematic Synthesis II (3) Prereq: EML
6275. Application of theory in EML 6275. Point-path, coplanar
and function generation synthesis problems for linear, circular,
or geared constraints. Reduction of parameters and optimiza-
tion concepts.
EML 6277-Spatial Kinematic Synthesis and Analysis (3)
Geometry of motion in three dimensions. Single position design
depending on orders of contact with spatial curves. Finitely
separated position design by matrix methods. Synthesis and
analysis of spatial motions.
EML 6278-Advanced Rotor Dynamics (3) Prereq: EML 4263
or 4220 and consent of instructor. Analysis of dynamic stability,
critical speeds, and unbalance response of rotor-bearing systems.
Special problems encountered in modern application operating
through and above the critical speeds.
EML 6281-Geometry of Mechanisms and Robots I (3)
Development of applications to basic theory of the mathematics
required in the design of spatial mechanisms and robot arms.
Examples include mathematical description of the elements of
mechanisms and robot arms, namely linkages and joints, their
mobility and their analysis.
EML 6282-Geometry of Mechanisms and Robots II (3) Prereq:
EML 6281. Theory of screws and application to the determina-
tion of stationary and uncertainty configurations of mechanisms
and robot arms. Dexterity and workspace of robot arms.
EML 6306L-Instrumentation and Measurements Laboratory
(1)
EML 6417-Solar Energy Utilization (3; max: 6) Solar energy;
its availability and characteristics; its conversion and utilization
as heat for power, refrigeration, distillation, phbtochemical reac-
tions; solar energy as a research tool.
EML 6418-Special Topics in Solar Energy (3; max: 9) Prereq:
undergraduate course in thermodynamics and heat transfer.
Selective surfaces, solar traps, solar energy storage, solar fuel
cells, direct conversion of solar radiation.
EML 6452-Energy Conversion (3) Conversion of available
forms of energy into mechanical and electrical forms; energy
conversion schemes, including conventional cycles in unusual
environments, MHD, solar cells, thermionic and photogalvanic
conversion and fuel cells.
EML 6506-Sliding-Element Bearing Analysis and Design (3)
Prereq: EML 4709, EGN 3353 or EAS 4106. Theory and design
analysis of hydrodynamic bearings and boundary lubricated
sliding bearing.
EML 6507-Rolling-Element Bearing Analysis and Design (3)
Prereq: EML 4500 and 4501 or EGM 5533. Theory and design
analysis of ball bearings and roller bearings.
EML 6508-Computer-Aided Design: Optimization (3) Prereq:
EML 5527, ESI 4312. Parameter optimization techniques in
machine systems.
EML 6527-Mechanics of Gait (3) Prereq: EML 5525. Concepts,
nomenclature, and control mechanics of normal and
pathological bipedal gait. :
EML 6606-Advanced Air Conditioning I (3) Prereq: EML 4600.
Air-conditioning system selection and system design; air handling
techniques including noise control, cleaning, temperature and


humidity control; modern technological development and
economic analysis.
EML 6607-Advanced Air Conditioning 11 (3) Prereq: EML 6606.
Industrial applications, special requirements for hospitals,
schools, survival shelter criteria.
EML 6715-Special Topics in Fluid Dynamics (3) Prereq: EML
4709.
EML 6716-Thermodynamics of Fluid Flow 1 (3) Prereq: EML
4709. Extends the previous fluid flow courses to include a wider
range of subject material and provide a background for con-
vection heat transfer courses.
EML 6717-Thermodynamics of Fluid FLow II (3) Prereq: EML
6716. A compressible flow course emphasizing two-dimensional
flow in internal flow systems.
EML 6718-Thermodynamics of Fluid Flow III (3) Prereq: EML
6717. A continuation of EML 6717.
EML 6905-Individual Projects in Mechanical Engineering (1-3;
max: 12)
EMI 6906-Advanced Mechanical Laboratory I (3) Experimental
projects in mechanical engineering.
EML 6910-Supervised Research (1-5) S/U.
EML 6911-Mechanical Research I (1-3; max: 6) Research
projects in mechanical engineering.
EML 6935-Graduate Seminar (1; max: 9) S/U.
EML 6940-Supervised Teaching (1-5) S/U.
EML 6971-Research for Master's Thesis (1-15) S/U.
EML 7980-Research for Doctoral Dissertation (1-15) S/U.


MEDICAL SCIENCES-GENERAL
College of Medicine
 The College of Medicine offers programs leading to
the Doctor of Philosophy and Master of Science degrees
in the basic medical sciences, with specialization in
anatomy, immunology and medical microbiology, neuro-
science, pathology, pharmacology and therapeutics,
physiology, and veterinary medicine. The Department
of Biochemistry and Molecular Biology offers separate
Ph.D. and M.S. programs. Training in these scientific
disciplines is planned to prepare the student for a career
in research and teaching, rather than in clinical practice
for which the Doctor of Medicine degree program is
designed.
 The graduate faculty and the courses offered are listed
 under department headings in this Catalog. A minor is
 not required but may be chosen in another of the basic
 sciences listed below or elsewhere in the Catalog. All
facilities of the College of Medicine are available to
graduate students in this program. Though an
undergraduate major in biological or physical science
is desirable, concentration in mathematics or engineer-
ing is an appropriate foundation for the Ph.D. in medical
sciences. Satisfactory completion of a thesis based on
research is a requirement for a graduate degree in the
medical sciences (see College of Medicine Catalog).
 In addition, the College of Medicine offers a Medical
 Scientist Training Program (combined M.D.-Ph.D.
 degree) to highly qualified students. Candidates for this
 five-to-seven-year :program must satisfy admission re-
 quirements of both the College of Medicine and the
 Graduate School. Applicants should specify the basic
 science department to which admission is sought; they
 will be admitted following independent approval by the
 Medical Admissions Committee, the departmental
 Graduate Selection Committee, and a Medical Scientist
 Training Program Board. Applications are coordinated
 through the Office of the Dean of the College of
 Medicine. Study and dissertation research in departments
 other than basic science departments in the College of
 Medicine may be included in this program.
 APB 5415-Radioisotope Theory and Techniques (3) Prereq: