 | The University of Virginia record January 15, 1934 |  |
SCHOOL OF CHEMISTRY
A fee of $20.00 and a breakage deposit of $5.00 are required for each
course involving laboratory work, and for research courses.
Chemistry B1a: General Chemistry: The fundamental principles of chemistry.
The first term is devoted to an introduction to the atomic theory and
second term occupies a consideration of the electrolytic dissociation theory,
oxidation and reduction reactions, equilibrium, and typical nonmetallic elements.
The third term is devoted to an introduction to the chemistry of carbon,
the descriptive chemistry of the more important metals and a brief introduction
to qualitative analysis. Three hours of lecture and six hours of
laboratory per week. (B.A. or B.S. credit, 6 session-hours.)
Professor Carter, Dr. Bell and Assistants.
Chemistry B1b: For students applying for Bachelor of Science in Chemistry
or Chemical Engineering.—First half-session same as Chemistry B1a.
Second half-session devoted to qualitative analysis and special topics in
descriptive chemistry. Three hours of lecture and six hours of laboratory
per week. (B.S. in Chem. or Chem. Engrg. credit, 6 session-hours.)
Professor Carter, Dr. Bell and Assistants.
Chemistry B2: Chemical Principles: Chemistry B1 prerequisite.—An
intermediate course designed to bridge the gap between general chemistry
and physical chemistry. The principles touched upon during the first-year
course are restated and treated from a more advanced viewpoint. Two
hours of lecture per week. (B.A. or B.S. credit, 6 session-hours, when
taken with B2a or B2b.)
Professor Yoe.
Chemistry B2a: Qualitative Analysis: Prerequisite, Chemistry B1a: Co-requisite,
Chemistry B2.—A laboratory course devoted to the study of systematic
qualitative analysis. Six hours of laboratory work per week and
one lecture or recitation on the technique and theory of analytical chemistry.
Professor Yoe and Assistants.
Chemistry B2b: Quantitative Analysis: Prerequisite, Chemistry B1b:
Co-requisite, Chemistry B2.—A laboratory course designed to accompany Chemistry
B2 and to introduce the theory and practice of volumetric and gravimetric
methods of analysis, including an introduction to electro-analysis. Nine hours per
week, including one demonstration or recitation on the technique and theory of
quantitative analysis.
Professor Yoe and Assistants.
Note: Chemistry B2 and B2a are specially recommended to pre-medical
students who wish to obtain more chemistry than the minimum requirement
of the Medical School.
Chemistry B3: Organic Chemistry: Chemistry B1a or b prerequisite.—
An introduction to the study of the compounds of carbon, including the
application of modern chemical theory to such compounds and their reactions.
Three hours of lecture and six hours of laboratory per week. (B.A.
or B.S. credit, 6 session-hours.)
Professor Bird and Assistants.
Chemistry B5: Undergraduate Research: To be eligible for this course
a student must have completed at least two of the three courses, B2 with B2b, B3
students are given opportunity to undertake an original investigation
of some problem in chemistry under the direction of a member of the teaching
staff. The student will be expected to devote to his problem a minimum
of nine hours per week throughout the year. (B.A. or B.S. credit,
3 session-hours.)
Chemistry C1: Physical Chemistry: Chemistry B2 and B2b, Physics B1,
and some knowledge of calculus prerequisite.—An introductory study of atomic
structure theory, kinetic theory and the principle of the conservation of energy form
the foundations of the study of gases, liquids, solids, solutions and rates of reaction.
A brief study of the direction of chemical change is then followed
by the consideration of homogeneous and heterogeneous equilibria. Three
hours of lecture and six hours of laboratory per week.
Professor Benton, Assistant Professor Spencer and Assistant.
Chemistry C2: Advanced Organic Chemistry: Chemistry B2, B2b and B3
prerequisite.—Normally Chemistry C2a is co-requisite, but C2 may be taken without
laboratory.—A systematic course of review and extension of the facts and
theories of Organic Chemistry from an advanced viewpoint. Introductory
discussions of special fields will be given during the latter part of the course.
Particular emphasis will be laid on mechanism of reactions, structure, and
configuration of organic molecules. Topics will be assigned individually
referring to original literature. Three hours of lecture per week. Laboratory
work may be selected from Chemistry C2a, b, c, d, e.
Associate Professor Lutz.
Chemistry C2a: Advanced Experimental Organic Chemistry: Chemistry
B2, B2b and B3 prerequisite: Co-requisite: Chemistry C2.—A laboratory
course designed to accompany Chemistry C2 and to give a broad experience in
experimental methods and technique of Organic Chemistry. The work will
consist of organic syntheses, quantitative organic analysis, identification of
organic compounds, and an introduction to methods of organic research.
Six hours of laboratory and one hour of lecture or consultation at the option
of the instructor.
Students specializing in Chemistry or Biochemistry may substitute for
C2a the parallel courses C2b, c, d, in which the work will be varied to suit
individual needs.
Associate Professor Lutz.
Chemistry C2b: Organic Syntheses: First term.
Associate Professor Lutz.
Chemistry C2c: Analytical Organic Chemistry: Second term. Includes
quantitative analytical methods commonly used in Organic Chemistry, and
qualitative methods of identifying organic compounds.
Associate Professor Lutz.
Chemistry C2d: Introduction to Organic Research: Third term.
Associate Professor Lutz.
Chemistry C2e: Micro Organic Analysis: Second or third term.
Dr. Small.
All students planning to take Chemistry C2b, c, d, or e should make
arrangements with the instructor in September. These courses involve a
minimum of nine hours of laboratory per week.
Chemistry C3: Advanced Analytical Chemistry: Chemistry B2 and
B2b prerequisite.—Conferences devoted to fundamental principles and recent developments
in Analytical Chemistry. One hour per week.
Professor Yoe.
Chemistry C3a: Advanced Analytical Chemistry Laboratory: Chemistry
B2 and B2b prerequisite.—A laboratory course consisting of a study of the application
of the pricniples of quantitative analysis to various materials. The work
will be selected from such subjects as Rock, Ore, Steel, Gas, Coal, and
Water Analysis. Six hours of laboratory per week.
Professor Yoe.
Chemistry C4: Applied Chemistry: Chemistry B3 and C1 prerequisite.—
The lectures and recitations in this course are devoted to the study of fundamental
principles underlying the more important phases of industrial chemistry,
including both theoretical and economic problems. A considerable
amount of collateral reading in descriptive industrial chemistry is assigned,
and written reports involving use of the literature are required. Better appreciation
of the quantitative relationships existing in the applications of
chemistry is gained through problem work paralleling the lecture material.
A number of plant inspection trips are arranged during the year. Lectures
and recitations, three hours per week.
Associate Professor Hitchcock.
Chemistry C5: Thermodynamics and Chemistry: A systematic study
of the application of thermodynamics in the solution of chemical problems.
Three class hours per week.
Assistant Professor Spencer.
Chemistry D1: Atomic Structure: An introduction to the modern
theory of atomic and molecular structure and its application in the study of
the chemical and physical properties of matter. Radioactivity, crystal structure
and an outline of the theory of atomic and molecular spectra are included.
Three class hours per week.
Professor Benton.
Chemistry D2: Special Topics in Organic Chemistry: Chemistry C1, C2,
and a reading knowledge of German prerequisite.—A course designed for graduate
students specializing in Organic Chemistry. It includes discussion of
such subjects as: Terpenes, molecular rearrangements, homo- and heterocyclics,
carbohydrates, proteins, natural products, alkaloids, drugs, dyes, electronic
concepts, and theories of reaction mechanism and valence. Individual
study of original literature and occasional reports are required. Three
hours per week.
Associate Professor Lutz.
Chemistry D3: The Kinetics of Chemical Reaction: A course designed
for graduate students interested in the field of reaction kinetics and catalysis.
Three class hours per week.
Professor Benton.
Chemistry D4: Selected Topics in Physical Chemistry: Conducted as a
seminar for students specializing in Physical Chemistry. The topics chosen
vary from year to year, and cover such fields as kinetic theory, photochemistry,
phase rule, electrochemistry, etc. Three class hours per week.
Professor Benton.
Chemistry D5: Advanced Thermodynamics: A course designed for students
specializing in Physical Chemistry, covering such topics as derivation
of thermodynamic data from band spectra, systematic calculation of thermodynamic
data of related substances, etc. Three class hours per week.
Assistant Professor Spencer.
Research Courses: Graduate students may undertake original investigation,
under the direction of a member of the staff, in any of the branches of
chemistry for which adequate facilities are available, as indicated below. In
every case the student must satisfy the instructor that his preparation qualifies
him to pursue research with profit. Hours will be arranged in conference
with the instructor. In order that ample time may be available, no student
will be permitted to elect more than one laboratory course in addition to
research.
Chemistry D20: Physical Chemistry, including Reaction Kinetics, Catalysis
and Adsorption.
Professor Benton.
Chemistry D21: Physical Chemistry, including Thermodynamics and
Electrochemistry.
Assistant Professor Spencer.
Chemistry D22: Organic Chemistry.
Professor Bird.
Chemistry D23: Organic Chemistry, including problems concerning synthesis,
structure, reaction mechanism and oxidation-reduction potentials.
Associate Professor Lutz and Dr. Small.
Note: Unusual facilities for special research in the chemistry of alkaloids
and drugs are offered in the alkaloid laboratory recently opened under the
auspices of the National Research Council. Graduate students of exceptional
ability may be admitted to this laboratory upon application to Dr. Small or
to Dr. Mosettig.
Chemistry D24: Analytical Chemistry, including Colorimetry and Nephelometry.
Professor Yoe.
Chemistry D25: Colloid Chemistry.
Professor Yoe.
The Chemical Journal Club will meet once a week (hour to be arranged)
for the critical review and discussion of various topics of interest in current
chemical literature and of such chemical researches as are in progress in the
University. All members of the teaching staff and advanced students in chemistry
are expected to participate in these meetings and to take part in the discussions.
The Organic Colloquium will meet bi-weekly (hours to be arranged).
Recent papers of interest to organic chemists will be presented. Graduate
students specializing in Organic Chemistry are expected to support the
meetings. Undergraduates and others interested are invited to attend and
participate in the discussions.
The Chemical Laboratory, recently completed, is of brick, fire-proof construction,
and the three floors afford 45,000 square feet of space. The seven
larger laboratories will accommodate 575 students, and in addition to these
there are numerous smaller laboratories for the use of the staff and advanced
students. There are also rooms for various special purposes, including three
dark rooms. The equipment is satisfactory for purposes of both instruction
and research. The laboratory maintains a working library containing about
5,000 volumes directly relating to chemistry, as well as complete files of the
important periodicals. A gift to the School of Chemistry from Mrs. Hamilton
Barksdale in memory of her husband, and from Delaware alumni and
friends of the University, provides an annual income sufficient for the adequate
maintenance of the library.
Requirements for the Degree of Doctor of Philosophy: In addition to
fulfilling the regular University requirements for the Degree of Doctor of
Philosophy, candidates for this degree who select chemistry as their Major
Subject must give evidence of thorough training in inorganic, organic, analytical,
and physical chemistry, by passing written qualifying examinations in
these subjects; these examinations to be passed not later than October 15th of the
session in which it is expected that the degree will be conferred.
Fellowships: There are available each session a number of Service Fellowships
in Chemistry, each with an honorarium of $450, and exemption
from tuition. These fellowships present the opportunity for graduate study
and research in Chemistry, accompanied by a limited amount of instructional
work. Holders of the fellowships will be expected to devote not more
than fifteen hours a week to instruction, leaving ample time for research and
work toward a graduate degree. On reappointment the required amount of
instructional work may be reduced. The fellowships are open to men who
have received a bachelor's degree from a college or university of recognized
standing, and who have received thorough undergraduate training in chemistry
and physics. Preference will be given to applicants who have studied
calculus, German, and French
In addition to the Service Fellowships, a number of advanced Fellowships,
requiring no instructional work, are also available to students who have
already had graduate training in chemistry in this University or elsewhere.
Applications for Fellowships should be made before March 1, on forms
obtainable from the Secretary of the Chemistry Faculty.
| The University of Virginia record January 15, 1934 | |