PHYSICAL THERAPY / 127


more major works or themes in recent British-American phi-
losophy.
PHP 6419-Seminar on Kant (4; max: 8)
PHP 6783-Seminar in Phenomenology (4; max: 8)
PHP 6785-Seminar in Analytic Philosophy (4; max: 8)

PHYSICAL THERAPY
College of Health Related Professions
 GRADUATE FACULTY 1984-85
Chairman & Graduate Coordinator: M. A. Clendenin.
Professors: M. A. Clendenin; M. C. Wroe. Associate
Professors: M. C. Finley; N. P. Fisher; T. M. Holmes.
 The Department of Physical Therapy offers the
Master of Health Science degree for students who
have graduated from an accredited program in physi-
cal therapy and have a minimum of two years of
clinical experience. Students may specialize through
selecting appropriate elective courses, a research
project, and clinical internship experiences. The pro-
gram consists of five semesters of full-time study.
 In addition to the requirements of the Graduate
School, acceptance into the program is dependent
upon completion-of an accredited program in physi-
cal therapy with a minimum 3.0 grade point average
in upper division and physical therapy courses, one
semester of statistics, a statement from the student of
the goals and objectives of his or her graduate work,
three letters of professional recommendations, and a
personal interview.
PHT 6126C-Pathokinesiology Theory and Practice I (1)
Coreq: PHT 6166C. Integration of principles of human mo-
tion as they apply to physical therapy patients and their re-
lated movement problems.
PHT 6127C-Pathokinesiology Theory and Practice II (1)
Prereq: PHT 6126C. Coreq: PHT 6167. Neurophysiological
and sensorimotor approaches to therapeutic exercises with
emphasis on neurology, pediatrics, and orthopedics.
PHT 6136-Research Instrumentation in Physical Therapy
(2) Prereq: STA 6200. Current techniques encompassing the
theory and practical application of techniques for the under-
standing and design of research projects related to physical
therapy.
PHT 6166C-Applied Neuroanatomy for Physical Therapy
(3) Neuroanatomy emphasizing motor and sensory
pathways. Emphasis on special sensory systems and normal
rather than abnormal mechanisms.
PHT 6167-Applied Neurophysiology for Physical Therapy
(3) Prereq: PHT 6166C. Neurophysiological basis of move-
ment, posture, sensation, and special sensory systems with
functional application to physical therapy evaluation and
treatment.
PHT 6506-Health Care Trends with Implications to Physical
Therapy (1) Prereq: consent of instructor. Examination of
current trends in the provision of health services in the U.S.
and the effects on physical therapy practice.
PHT 6935-Seminar in Physical Therapy I (1; max: 4) Prereq:
consent of instructor. Current topics in physical therapy.
S/U.
PHT 6949L-Advanced Internship in Physical Therapy (6)
Prereq: completion of didactic course work in the advanced
program in physical therapy. Clinical experiences in physical
therapy at facilities selected to meet the individual needs
and interests of each student. S/U.
PHT 6980-Applied Research in Physical Therapy (4-8; max:
12) Prereq: PHT 6136 and STA 6200. Independent study of
students' selected research topic under supervision of grad-
uate advisor. S/U.

PHYSICS
College of Liberal Arts and Sciences
 GRADUATE FACULTY 1984-85
Chairman: C. F. Hooper, Jr. Graduate Coordinator:


B. S. Thomas. Graduate Research Professors: E. R. An-
drew; A. E. S. Green; P. -0. Lowdin. Distinguished
Service Professors: S. S. Ballard (Emeritus); A. G.
Smith. Professors: E. D. Adams; T. L. Bailey; A. A.
Broyles; J. R. Buchler; T. D. Carr; J. R. Cox;* J. W. Dufty;
F. E. Dunnam; R. D. Field; R. E. Garrett; C. F. Hooper,
Jr.; J. R. Ipser; B. Lamborn;* J. B. McGuire;* D. A.
Micha; H. J. Monkhorst; A. H. Nevis; N. Y. Ohrn; R.
Pepinsky; L. R. Peterson; P. Ramond; J. E. Rowe; J. R.
Sabin; R. F. Stetson;* N. S. Sullivan; D. B. Tanner; C. B.
Thorn; S. B. Trickey; H. A. VanRinsvelt. Associate Pro-
fessors: J. R. Brookeman; S. W. Bruenn;* S. L.
Detweiler; G. G. Ihas; P. Kumar; G. R. Lebo; B. S.
Thomas. Assistant Professors: R. L. Coldwell; T. L.
Curtright; J. N. Fry; K. E. Taylor.
 *These members of the faculty of Florida Atlantic University are-
also members of the graduate faculty of the University of Florida and
participate in the doctoral degree program in the University of Florida
Department of Physics.
 The Department of Physics offers the Master of Sci-
ence (thesis, or with graduate faculty approval, non-
thesis) and the Doctor of Philosophy degrees. The
nonthesis Master of Science in Teaching is also avail-
able. A wide choice of research specialities is offered.
Special interdisciplinary research projects include the
Chemical Physics Program (contact Prof. D. A. Micha)
and the Quantum Theory Project (contact Prof. P. -0.
Lowdin).
 The core curriculum is designed to provide a thor-
ough foundation for all physics graduate students. It
consists of PHY 6246, 6346, 6347, 6536, 6537, 6645, and
6646. Doctoral students ordinarily take com-
prehensive examinations (which are based on the
four fundamental areas included in the core cur-
riculum) at the beginning of their second year.
Master's degree-candidates must take more than 12
semester hours numbered 6000 or above, usually from
the core curriculum.
 A reading or functional knowledge of French, Ger-
man or Russian is required of Ph.D. degree candi-
dates. All degree candidates are required, as part of
their graduate education, to participate continuously
in the research and/or teaching programs of the de-
partment. At least one year of teaching is mandatory;
students not engaged in research must continue in
teaching beyond that minimum until undertaking
their research.
AST 5210-Introduction to Astrophysics (3) Prereq: AST
3019C. Fundamentals of radiative transfer and a detailed de-
velopment of Planck's expression for the specific intensity of
blackbody radiation. The basic equations of stellar structure
are derived, and particular solutions of these equations are
considered along with their astronomical implications.
AST 6165--Radiopropagation and Ionospheric Physics I (2)
Prereq: PHY 4324. Propagation of electromagnetic waves in
magnetoionic media, with emphasis on the terrestrial
ionosphere and cosmic conditions such as solar corona and
interstellar media.
AST 6166-Radiopropagation and Ionospheric Physics II (2)
Prereq: AST 6165. Ionospheric electron density and ion com-
position profiles; diurnal, seasonal, and global variations;
presunrise effects; electron and ion temperatures; solar flare
and magnetic storm effects. -
AST 6167-Atomic Physics of Planetary Atmospheres (2)
Prereq: basic physics and mathematics through integral cal-
culus. Atomic and quantum theory, quantum mechanics and
the central field problem, atomic and molecular spec-
troscopy, collisional cross sections for aeronomy.
AST 6168-Physics of the Earth's Upper Atmosphere (2) Pre-
req: AST 6167. Solar-terrestrial relations, aurora, airglow, and
ionospheric phenomena. Remote sensing of atmospheric
emissions and scattered solar radiation.
AST 6169-Physics of Planetary Atmospheres (2) Prereq: AST