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CIVIL AND ARCHITECTURAL ENGINEERING 299
*1: 173b STEEL STRUCTURES. (2) I, II Maggard
K- Contnruation of CE 173a with emphasis on floor systems, trusses, and plate girders
*1 for bridges. Drawing room, six hours. Prereq: CE 173a.
h 175 TIMBER STRUCTURES. (2) I, II Gesund
l° Theory and design of_ structural timber beams, columns, trusses as related to build-
vi; ings and bridges. Recitation, one hour; drawing room, three hours. Prereq: CE 171a.
190 WATER WORKS AND WATER TREATMENT. (3) I
By Theory of water supply and purification, microbiology of fresh water, design of
Er water works and water distribution systems. Lecture, three hours. Prereq: CE 120.
n` 191 SEWERAGE AND SEWAGE TREATMENT. (3) II
Aerobic   anaerobic_methods of sewage treannent, biochemical oxygen demand,
By stream purification, design of sewerage and sewage treatment plans. Lecture, three
h_ hours. Prereq: CE 120.
gf 192 PUBLIC HEALTH ENGINEERING. (3) II
Application of engineering principles to the control of the environment, as used by
sanitary engineers in federal, state or international health agencies. Lecture, three
ld hours. Prereq: Consent of Instructor.
?§ 193 SANITARY ENGINEERING LABORATORY. (5) I
Lectures and laboratory practice in principles, application, and interpretation of
analytical tests used in sanitary engineering research and plant control. Lecture,
In, three hours; lah, six hours. Prereq: Consent of Instructor.
re,
Prerequisite for graduate work: Students desiring to take any of the fol-
5*: lowing courses should have a thorough working knowledge of Chemistry,
ué Physics, and Mathematics. These courses are offered to graduates and to such
practicing engineers as may be qualified to pursue them. For major work, a
Ll candidate must hold a bachelor’s degree in Civil En ineering, or its e uivalent.
== . . . q
{gl University requirements for Graduate work are listed in the Bulletin of the
' Graduate School.
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[J; 202a ADVANCED REINFORCED CONCRETE STRUCTURES. (3) I, II Gesund
Theory and application of condensed forms of stress analysis and design as applied
to continuous unsymmetrical building frames. Lecture, three hours. Prereq: CE
gk 171b and 110b.
d
D 202b ADVANCED REINFORCED CONCRETE STRUCTURES. (3) I, II Mory
Theory and application of the colrmin analogy method of stress analysis and design
gc; as applied to members and continuous structures with emphasis on arches. Lecture,
gu three hours. Prereq: CE 1711: and 11011.
m° 202c ADVANCED REINFORCED CONCRETE STRUCTURES. (3) I, II Mory
Theory and application of stress analysis and design methods as applied to con-
grs tinuous unsymmetrical frames carrying horizontal loads; frames with haunched mem-
Lu- bers and continuous arches on slender piers. Lecture, three hours. Prereq: CE 202b.
te- 202d ADVANCED REINFORCED CONCRETE STRUCTURES. (3) I, II Mory
Problems in the design and detailing of special structures, selected jointly by the stu-
dent and instructor. Lecture, one hour; lab, four hours. Prereq: CE 202c.
d
D 221a,b ADVANCED SOIL MECHANICS. (8 ca.) I, II _ _ Drake
Advanced study of the engineering properties of soils and the application of these
Ek theories to the design of engineering structures. Lecture, one hour; lab, four hours.
mg Prereq: CE 107.
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Sa 230a ADVANCED HIGHWAY ENGINEERING. (3) I, II _ Drake
A study of highway administration, economics and finance including, sources and
,1-d types of revenue, road costs, toll iinancing, classification of roads, benefits from im-
es, provement and program planning. Lecture, three hours. Prereq: CE 13012 or can-
yu, sent of instructor.
230b ADVANCED HIGHWAY ENGINEERING._ (3) _I, II _ Pendley
yy A study of trallic, planning and geometric design including trailic surveys, traHic
nd control, parking and design consideration. Lecture, two hours; lab, two hours.
Prereq: CE 13011 or consent of instructor.
HY 230c ADVANCED HIGHWAY ENGINEERING. (3)_ I, II_ O Drake
nd Highway design, construction and maintenance including, physical aspects of design,
m, drainage, road types, pavement design, construction methods and supervision, and
maintenance methods. Lecture, three hours. Prereq: CE 232:1.