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ELECTRICAL ENGINEERING

900: Elements of Electrical Engineering:

11:30-12:30, M. W. F.

Lectures treating fundamental principles of Electrical Engineering; basic
ideas and fundamental units discussed; magnetic circuits and continuous electric
currents treated in detail; electromagnetism carefully studied. Special attention
is given to the physical conceptions involved, and numerous assigned
problems exemplify and broaden the theoretical discussions. 3 hours per week
of supervised problem work. (Fall.)

Professor Rodman and Mr. Quarles.

901: Direct Current Machines:

11:30-12:30, M. W. F.

Lectures on the theory, construction, characteristics, and operation of direct
current generators and motors and the necessary apparatus required for
the proper management and control of these machines. The principles of
testing such machines are carefully discussed. Problems illustrating the
methods of calculation involved in continuous current circuits and practical
examples from standard engineering practice form an important part of the
work. 3 hours per week of supervised problem work. (Winter.)

Professor Rodman and Mr. Quarles.

902: Periodic Currents:

11:30-12:30, M. W. F.

Lectures on electrostatic phenomena, variable currents, alternating currents,
and alternating current circuits, both single and polyphase. A careful
study is made of circuits with periodic currents and their characteristics
when resistance, inductive reactance and capacity reactance are present in
their various combinations. Extensive problem work is required to facilitate
the treatment of simple and complex circuits. 3 hours of supervised problem
work per week. (Spring.)

Professor Rodman and Mr. Quarles.

903: Alternating Current Machinery:

10:30-11:30, M. W. F.

Lectures on balanced and unbalanced polyphase circuits and power measurements
followed by the treatment of theory, construction, characteristics,
and operation of synchronous alternating current generators. The principles
of testing such apparatus under various conditions of loading are discussed,
and assigned problem work illustrates the theory and practice. 3 hours per
week of supervised problem work. (Fall.)

Professor Rodman.

904: Alternating Current Machinery:

10:30-11:30, M. W. F.

This course is a continuation of 903. The lectures treat more particularly
transformers, synchronous motors and parallel operation of alternating current
generators. Methods of testing are outlined and graphical methods of
calculation and predetermination of operating characteristics are discussed.


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Problems taken from engineering practice serve to broaden and fix the theoretical
deductions. 3 hours per week of supervised problem work. (Winter.)

Professor Rodman.

905: Alternating Current Machinery:

10:30-11:30, M. W. F.

This course is a continuation of 903-4. Lectures deal with the theory,
construction and operation of rotary converters, induction, series, and repulsion
motors. Problems are solved to clarify the theory. 3 hours of
supervised problem work per week. (Spring.)

Professor Rodman.

906: Illumination and Photometry:

11:30-12:30, T. Th. S.

Lectures on light, its physical properties; illuminants and their characteristics;
shades and reflectors; photometry, standards and apparatus; illumination
calculations for point and surface sources; principles of interior, exterior,
decorative, and scenic illumination. Problems illustrating computations
necessary for the consideration of the Illuminating Engineer are assigned.
(Spring.) Optional for Hydro-electric Engineering (920), or Electric
Traction (907), only one given in any year.

Professor Rodman.

907: Electric Traction:

11:30-12:30, T. Th. S.

Lectures on the various types of electric motors for traction purposes,
controllers and systems of control, brakes, rolling stock, track, train performance,
and electric railway economics. A discussion with problems of
the complete electrification system for electric railways, including generating
apparatus, transmission, sub-stations and equipment, distribution, and utilization
of electrical energy for car propulsion. (Spring.) Optional for Hydroelectric
Engineering (920), or Illumination and Photometry (906-956), only
one given in any year.

Professor Rodman.

910: Direct Current Systems:

9:30-10:30, T. Th. S.

Lectures dealing with the fundamentals of electrical circuits and direct
current machinery. Problem work accompanies the lectures. The course
is essentially for the non-electrical engineering students. (Fall.)

Professor Rodman and Mr. Quarles.

911: Alternating Current Systems:

9:30-10:30, T. Th. S.

Lectures covering the fundamentals of alternating current circuits and
machinery. Brief expositions of the subjects of electric lighting and power
fundamentals. For non-electrical engineering students. (Winter.)

Professor Rodman and Mr. Quarles.

916-917-918: Advanced Alternating Current Machinery:

9:30-10:30, M. W. F.

A more detailed study of advanced character dealing with alternating current
machinery under abnormal conditions of service with attention to the
more refined problems involved. Optional for Electrical Communication
(940-941-942), only one given in any year. (Fall, Winter, Spring.)

Professor Rodman.


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920: Hydro-electric Engineering:

11:30-12:30, T. Th. S.

A course of lectures dealing with the fundamentals of hydro-electric engineering
from the consideration of rain-fall through the various steps of investigation
and construction to the finished plants, with especial emphasis on the
economic features of the problem. (Spring.) Optional for Illumination and
Photometry (906-956), or Electric Traction (907), only one given in any year.

Professor Rodman.

925: Electric Transients:

10:30-11:30, M. W. F.

A course dealing with transients as they are encountered in varied electric
circuits with both lumped and distributed constants; an introduction to the
operational method as applied to electric circuit theory. (Fall.)

Associate Professor Miller.

930-931-932: Electric Power Transmission:

9:30-10:30, T. Th. S.

A study of the problems involved in modern electric power transmission.
Treating the inductance and capacity of lines, aerial and underground; corona;
steady state solutions for short and long lines; consideration of stability power
limits and factors entering into the operation of complete power systems. (Fall,
Winter, Spring.)

Associate Professor Miller.

940-941-942: Electrical Communication:

9:30-10:30, M. W. F.

A course dealing with the general subject of electrical communication of
intelligence by wire and wireless telegraph and telephone with emphasis on the
theoretical details of the subject. Treatment of the various mechanisms and
circuits utilized with particular reference to the vacuum tube engineering.
(Fall, Winter, Spring.) Optional with Advanced A. C. Machinery (916-917-918),
only one given in any year.

Professor Rodman.