 | The University of Virginia record March 15, 1931 |  |
CHEMISTRY
300-301-302: General Chemistry:
10:30-11:30, T. Th. S.
350-351-352: Chemistry Laboratory:
11:30-1:30, T. Th. S.
The fundamental principles and phenomena of inorganic, organic, and
physical chemistry, and the foundations of analytical chemistry. Most of
the time is devoted to inorganic phenomena. (Fall, Winter, Spring.)
Professor Carter, Mr. Bell and Assistants.
306-307-308: Analytical Chemistry:
8:30-9:30, T. Th. S.
356-357-358: Analytical Chemistry Laboratory:
2:30-5:30, T. Th.
Chemistry 300-1-2 prerequisite.
(a) Qualitative Analysis. First and second terms, 3 hours of lecture
and 6 hours of laboratory per week, devoted to the study of systematic qualitative
analysis. (b) Quantitative Analysis. Third term, 2 hours of lecture
and 9 hours of laboratory per week, devoted to elementary quantitative
analysis. In the lectures and recitation work special emphasis is given to the
theoretical foundations of analytical chemistry. (Fall, Winter, Spring.)
Professor Yoe and Assistants.
309-310-311: Organic Chemistry:
11:30-12:30, T. Th. S.
359-360-361: Organic Chemistry Laboratory:
2:30-5:30, T. Th.
Chemistry 300-1-2 prerequisite.
An introduction to the study of the compounds of carbon, including the
application of modern chemical theory to such compounds and their reactions.
(Fall, Winter, Spring.)
Professor Bird and Assistants.
318-319-320: Quantitative Analysis:
Lecture by appointment
368-369-370: Quantitative Analysis Laboratory:
2:30-5:30, M. W.
Chemistry 306-7-8 prerequisite.
A course in the principles of quantitative analysis. The laboratory work
will include a study of characteristic procedures, illustrating gravimetric and
volumetric analysis. 1 hour of lecture and 6 hours of laboratory per week.
(Fall, Winter, Spring.)
Professor Yoe and Assistants.
321-322-323: Physical Chemistry:
12:30-1:30, M. W. F.
371-372-373: Physical Chemistry Laboratory:
2:30-5:30, T. Th.
Chemistry 306-7-8 prerequisite, as well as some knowledge of the Calculus and
previous training in Physics.
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. (Fall, Winter, Spring.)
Assistant Professor Spencer and Assistant.
324-325-326: Principles of Chemical Engineering:
10:30-11:30, M. W. F.
Chemistry 321-22-23 prerequisite.
A course designed to give the prospective chemical engineer a thorough
foundation in the basic principles of his profession. Regularly taken in the
fourth year. The unit operations of chemical industry are studied from the
standpoint of the chemical and physical principles involved. Practice in the
application of these principles is given by the solution of numerous type problems
in which quantitative treatment is emphasized. Attention is first devoted
to a detailed study of flow of fluids and flow of heat, since these topics are
fundamental in the subsequent development of unit operations in Chemical
Engineering. These subjects are followed by evaporation, humidification, drying
and distillation. Facility is developed in the stoichiometry of chemical industry.
Plant inspection trips are made from time to time. Lectures and recitations, 3
hours a week. (Fall, Winter, Spring.)
Textbook: Walker, Lewis and McAdams: Principles of Chemical Engineering;
McGraw-Hill Book Co., N. Y., 1927.
Associate Professor Hitchcock.
327-328-329: Advanced Chemical Engineering:
9:30-10:30, M. W. F.
Chemical Engineering 324-25-26 prerequisite.
Regularly taken in the graduate year by candidates for the Ch. E. degree.
The subjects of distillation and drying are treated in more detail than in the preliminary
course, while the additional subjects of filtration, absorption, and extraction
are taken up. Familiarity is gained with the applications of calculus to
the solutions of problems in these fields. Principles in the flow of fluids and flow
of heat are used in solving problems of more advanced character. Recent developments
hours a week. (Fall, Winter, Spring.)
Textbook: Walker, Lewis and McAdams: Principles of Chemical Engineering.
Associate Professor Hitchcock.
340-341-342: Applied Chemistry:
8:30-9:30, M. W. F.
Chemistry 309-10-11 and 321-22-23 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, 3 hours a week. (Fall, Winter, Spring.)
Associate Professor Hitchcock.
386-387-388: Chemical Engineering Research:
This course is designed for candidates for the Ch. E. degree and affords an
introduction to research methods. Fundamental problems are selected, whenever
possible, from the field of greatest interest to the student. The method of attack
is in general to reduce the selected problem to laboratory scale leading to the
collection of basic data susceptible of definite interpretation, rather than to attempt
special investigations on semi-plant equipment which usually lead to merely
empirical data. The use of the chemical literature as an aid in conducting investigations
accompanies the laboratory work, as well as practice in the mathematical
and graphical treatment of the data obtained.
The preparation and submission of a satisfactory thesis marks the completion
of this course, and is a partial fulfillment of the requirements for the Ch. E.
degree. Two copies of the thesis, typewritten on paper of prescribed quality and
size, and substantially bound, must be deposited in the office of the Dean of the
Department of Engineering not later than May 15 of the year in which it is expected
that the degree will be conferred. The back of the cover must bear the
title of the thesis and the writer's name, and the title page must bear the words:
A thesis presented to the Engineering Faculty of the University of Virginia in
candidacy for the degree of Chemical Engineer. (Fall, Winter, Spring.)
Associate Professor Hitchcock.
Advanced Courses: A number of advanced courses in Chemistry, not
listed above, are described in the catalogue of the College. When time permits,
students in Chemical Engineering, who are properly prepared, may take
such of these courses as are approved by the Faculty of Engineering.
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 University of Virginia record March 15, 1931 | |