CIVIL AND ARCHITECTURAL ENGINEERING 277
‘P“°d 17111 THEORY OF STRUCTURES. (8) I, II Mory
Continuation of Civ. Eng. 171a with emphasis on indeterminate structures. Lec-
kegg ture and recitation, three hours. Prerequisite: Civ. Eng. 171a.
-€af§§ use STEEL STRUCTURES. (3) I, II Mory
mic,. Design and details for various types of riveted and welded connections, riveted
and welded building frames, plate girders and trusses. Lecture, one hour;
drawing room, six hours. Prerequisite: Civ. Eng. 171a.
Mory
ldin 173b STEEL STRUCTURES. (2) I, II Mory
{mrs? Continuation of iv. Eng. 173a with emphasis on floor systems, trusses, and
plate girders for bridges. Drawing room, six hours. Prerequisite: Civ. Eng. 173a.
Mary 174 GRAPHIC SOLUTIONS. (2) I. II Mory `
mm.; Analysis of stresses by graphical methods, in simple structures including beams.
iisite: girders, and trusses. Design and details of timber structure. Drawing room, six
hours. Prerequisite or concurrent: Civ. Eng. 17la.
haver 182 SANITATION. (2) I, II Cheek
lsys- Presented from an engineering viewpoint. Municipal and rural sanitation,
itudc treatment and protection of water supplies, disposal of refuse and sewage, con-
table trol of insects, food supply, plumbing and ventilation. Lecture and recitation. ,·
wm-ky two hours. Prerequisite: Bact. 57. —
Prerequisite for graduate work: Students desiring to take any of the
Dheek following courses should have a thorough working knowledge of Chemistry,
rough 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 candidate must hold a bachelor’s degree in Civil Engineering, or its
equivalent.
Dheek
  202a-d CONSTRUCTION. (3 ea.) I, II Mory
Advanced work in plain and reinforced concrete. Theory, design, and details
for rigid buildings, bridge frames and arches. Calculation of stresses by the
meek method of column analogy. Class work, one hour; laboratory, four hours.
Vatgn 221a,b ADVANCED SOIL MECHANICS. (3 ea.) I, II Gregg
ns in _ _ _
; Civ, Advanced study of the engineering properties of soils, dealing directly with flow
of water through soils, stresses in earth masses, shearing resistance and condi-
tions of failure, clay mineral content and its effect, airphoto classification of
jhgek soils, and the application of these theories to the design of engineering struc-
I tures. Lecture, one hour; laboratory, four hours a week. Prerequisite: Civ.
P°S“· Eng. 107.
232a-d IIIGHWAY ENGINEERING. (3 ea.) I, II Chambers and Gregg '
"h€c?` Advanced course designed for graduate civil engineers who wish to enter the
sam- field of highway engineering. Road laws, organization of highway departments,
insect traffic cost, contracts and specifications ,and laboratory investigations on all
Loc- kinds of surfacing materials. Structures, their design and maintenance. Class
work, one hour, laboratory, four hours.
Zheck 242:1-d RAILROAD ENGINEERING. (3 ea.) I, II Shaver
l lay- Advanced course in location, construction, maintenance, economical selection of
zwagé lines, grade reduction, cost of operation, valuation, and structures and their
d 152. maintenance. Class work, one hour; laboratory, four hours. ·
Cheek 252a-d SANITARY ENGINEERING. (3 ee.) I, II Cheek
trii;¤· Advanced course in sewer design, construction and maintenance; design, main-
zering tenance, and operation of sewage disposal plants; water supply and waterworks
sposal design; and construction and maintenance. (Courses in water analysis and
Ent'- bacteriology should be taken in connection with this course.) Class work, one
hour; laboratory, four hours.
MON 26%-d GEODETIC SURVEYING. (3 ea.) I, II Shaver
’$a;r§§ Advanced course in geodetic calculations, development, and use of formulas
` used by the United States Coast and Geodetic Survey. Modern methods of
field practice. Class work, one hour; laboratory, four hours.