UCLA General Catalog 1971-72 - Registrar - UCLA

228 / CHEMISTRY
approximation techniques; atoms; molecular orbital
and valence bond approaches ; ligand field theory,
molecular spectroscopy . A terminal course which
emphasizes principles , limitations , and chemical
applications without a detailed discussion of mathematical
and .y,.,wcum mechanical techniques. Not
open to students who have received credit for course
115B . Mr. Kasper
requisite : course 133A. Lecture: organic reactions
and synthesis . Laboratory : methods of organic reactions,
synthesis and isolation.
Mr. Geiumao , Mr. Jacobs
13386. Intermediate Organic Chemistry . (t/: course
Lecture and quiz, three hours. Open only by consent
of the Chemistry Graduate Adviser to gradu.
ate students who have not taken course 133B in this
123A. Classical and Statistical Thermodynamics. institution. Mr. Geissman, Mr. Jacobs
Lecture and quiz, four hours. Prerequisite : course 136. Qualitative Organic Analysis.
1IOB. Fundamentals of classical and statistical thermodynamics
; translation , rotation, vibration, hin- Lecture, two hours; laboratory, eight hours. Predered
rotation and excited electronic states of perrequisite : courses 6A and 8B or course 131 taken at
fect gases; ortho-pare hydrogen ; heat capacities and UCLA or equivalent instruction in spectroscopic
chemical equilibria of perfect gases ; electric and methods of organic chemistry ; course 133B. Identi.
magnetic effects ; statistical theory of reaction rates; fication of unknown organic compounds ; separations
intermolecular forces; the imperfect gas.
of mixtures; derivatives ; instrumental methods; micro
Mr. Baur, Mr . Knobler, Mr. R. Scott techniques . Mr. Foots
1238. Classical and Statistical Thermodynamics. 143A. Advanced Organic Chemistry.
Lecture and quiz, four hours. Prerequisite : course Lecture and quiz, three hours. Prerequisite: coupe
123A , Mathematics 12C or 13C. Thermodynamics 1338 . Gross mechanisms of organic reactions ; simple
of phase equilibria ; the solid and fluid states; non- molecular orbital theory; Hammett and Taft relaelectrolyte
and electrolyte solutions ; surface phetionships; conformational analysis; reaction internomena;
high polymers ; gravitation.
mediates. Mr. COME
Mr. Baur, Mr. R. Scott
*125. Computers in Chemistry.
1436. Advanced Organic Chemistry.
Lecture and quiz , three hours. Prerequisite: coupe
Lecture : three hours. Prerequisite : courses 110A,
143A . Organic reactions ; organic synthesis ; natur-
1108 , 113, and a working knowledge of FORTRAN ally occurring compounds . Mr. Can
IV or PL/1. Discussion of computer techniques,
including matrix manipulation , solution of differen- 144 Organic Synthesis.
tial eeqq uations, data acquisition and instrumental
control, and their applications co, to chemical problems Lecture ; two hours; laboratory, eight hours. Pre.
in quantum mechanithermodynamics, and requisite : courses 6A and 6B or course 131 taken at
kinetics. Mr. Kasper UCLA or equivalent instruction in spectroscopic
methods of organic chemistry ; course 133B . Methods
131. Spectroscopic Methods of Organic
of organic synthesis . Mr. Ever
Chemistry. (y course)
153. Biochemistry.
Lecture, two hours. Prerequisite : a course in ele-
Lecture, four hours. Prerequisite : courses 4C and
mentary organic chemistry equivalent to courses 4A
SC; 133A recommended . Survey of biochemists),
and 4B . Course 131 is not open to students who have
with emphasis on chemical properties associated we
completed course 88 at UCLA . This course is intended
for transfer and graduate students who have
biological function . Mr. Atkinson, Mr. Wei
not had instruction in spectroscopic methods at the
level of courses 8A and 8B. For such students, this 154. Biochemical Methods.
course is required for admission to courses 133A, Lecture and quiz, two hours; laboratory, eiot
133AG , 138, and 144, although it may be taken con- hours. Prerequisite : courses 133B , 153, or consoat
currently with courses 133A and 133AG . Interpreta- of the instructor. Applications of biochemical psa
tion of infrared, ultraviolet , nuclear magnetic res- cedures to metabolic reactions ; properties of livia{
onance and mass spectra in organic chemistry; systems ; enzymes; proteins; nucleic acids and othu
introduction to other spectroscopic methods.
tissue constituents. Mr. Komi
Mr. L. Scott
133A. Intermediate Organic Chemistry.
173. Structural Inorganic Chemistry.
Lecture and quiz , three hours. Prerequisite
Lecture and quiz, three hours ; laboratory, four
hours . Prerequisite : courses 6A and OR or course 131
courses 113, 110A (110A may be taken cons'
(which may be taken concurrently ) or equivalent
rently ). Course 133B is also recommended . Selected
instruction in spectroscopic methods of organic
survey of inorganic compounds : hydrides; fluomit
chemistry; courses 4C and 6C. Lecture: organic
compounds ; organo-metallics ; nonmetal compoua g
reactions ; synthesis ; classes of compounds . Labora-
stereochemistry ; coordination chemistry of the tray
tory: methods of organic reactions and synthesis;
sition metals ; inorganic polymers.
techniques of product isolation.
Mr. Kaesz, Mr. ZMt
Mr. Geissman, Mr. Jacobs 175. Inorganic Reaction Mechanisms.
133A6. Intermediate Organic Chemistry . (t course) Lecture and quiz , three hours. Prerequisite
Lecture and quiz, three hours . Open only by con- courses 110A , 110E and 113 or consent of the In,
sent of the Chemistry Graduate Adviser to gradu- structor. Survey of inorganic reactions ; mechanistic
ate students who have not taken course 133A in this principles; electronic structure of metal ions; trasd-
institution . Mr. Geissman , Mr. Jacobs tion-metal coordination chemistry; inner- and odt .
sphere and chelate complexes; substitution , iwme 1.
1338. Intermediate Organic Chemistry.
zation and racemization reactions; stereochembhy;
Lecture , three hours ; laboratory , eight hours. Pre- oxidation-reduction , free-radical , polymerization ad
photochemical reactions of inorganic species.
* Not to be given, 1971-1972.
Mr. Gmee