Civil and Sanitary Engineering- Descriptions ol Courses

CHINESE 342. Survey of Transportation Systems 407. Structural Design Concepts Fall. 4(4-0) JunWr11; not open to Spring. 3(3-0) 405, 406. major11. See Linguistics and Oriental and African Develop and elq}and design concepts through Languages Survey of engineering aspects of all forms of study, investigation and project design of vari­ transportation with emphasis on highway trans­ ous structural systems. Criteria for material portation including highway systems, planning, selection and creative design of unusual struc­ economic and financial aspects, geometries and tural systems pursued, traffic studies.

346. Transportation 410. Structural Mechanics Ill CIVIL AND Winter. 4(4-0) 400, CPS 120. (446.) Fall, Winter, Summer. 3(3-0) SANITARY ENGINEERING MTH 214. Continuation of 400. Matrix analysis of framed structures. Introduction to inelastic behavior of Planning, design and evaluation of transporta­ structures. Use of programmed computer solu­ tion systems, Operational characteristics of tion techniques. College of Engineering transportation modes, traffic ftow and tech­ niques for system selection. Civil Engineering C E 419. Soil Mechanics ll 347. Transportation Facilities Fall. 4(4..Q) 312. 251. Elementary Surveying (447.) Winter. 4(3-3) 251 or .252. Foundation engineering. Immediate, consolida­ Fall, Spring. 4(3-3) Trigonometry, Geometric design of highway and airport facil­ tion, and secondary settlements; stress distribu­ EGR 160 or 267. Not open to majors, ities as these considerations affect capacity, tion in soil masses; lateral earth pressures on Use of the tape, compass, level, and transit traffic control and economics of transport sys­ structures; bearing capacity if shallow founda­ with simple maps; traverse closure and area tems. Financing and administration of trans­ tions; introduction to stability analysis of earth computations. Profile, cross section and stadia port systems. structures. surveys, U. S. land system. 353, Surveying II 421. Hydrology 252. Surveying l Spring. 4(3-3) 251 OT 252. Fall, Spring. 4(3-2) 280, 321, 390. Fall, Spring. 5(4-3) Trigonometry. Continuation of 252 including photogrammetric Engineering hydrology; frequency and precipi­ Instruments, theory of measurements, error methods, astronomical observations for latitude, tation analysis; streamflow analysis and the unit analysis, stadia, horizontal and vertical curves, longitude and meridian. Introduction to geo­ hydrograph; flood predicti-on; rainfall-runoff U.S. Public Land System, observation for me­ detic methods. correlations; urban hydrology. ridian. 370. Cost and Optimization 280. lnb'oduction to Environmental Engineering 422. Hydraulic Systems Engineering Fall, Winter. 3(3-0) MTH 113. Winter. 4(3-2) 321, 390 or ME 351. (382.) Fall, Winter, Spring. 4(4·0) Formulation of engineering decisions govemed Steady ftow in pipe networks; open channel GEM 141 or 131, MTH 112, CPS 120. by current and future costs and returns. Com­ flow; turbomachinery; groundwater hydraulics; Hydrology; ground water and surface water parison and optimization of alternative engineer­ introduction to unsteady flows. Applications to supply systems; wastewater treatment, methods ing projects, products and processes. water supply systems; aquifer analysis; surges of pollution control for solid waste, air, and and water hammer. noise. 372. Construction Estimating Fall, Spring. 3(3-0) Juniors. 441. Highway Operations 305. Structural Mechanics I Spring. 3(3-0) 346 or 342. Winter, Spring. 4(4-0) MMM 211. Cost studies of construction activities with emphasis on labor productivity and operating Driver and vehicle characteristics affecting traffic Stability and determinacy of structures. Two characteristics of equipment under various site flow; traffic flow density, headway and speed and three dimensional detenninate structures. conditions. Interpretation of drawings and spe­ measurements; signing and signal control for Indeterminate structural analysis by displace­ cifications. efficient intersection operation, parking charac­ ment and force methods based upon equilib­ teristics and capacity analysis. rium, compatibility and load-deformation rela­ tions. 374. Legal Aspects of Engineering Spring. 3(3-0) Juniors. 442. Airport Planning and Design 308. Engineering Materials I The professional engineer's relationship with Fall. 4(3-2) 346. Winter, Spring. 4(3-3) MMM 211 the legal aspects of engineering. Special em­ The planning and design of the components of or concurrently. phasis on contract documents. the airport system including ground access fa­ Structure; composition; physical, mechanical and cilities; aircraft characteristics; the air traffic rheological properties of non-metallic construc­ control system; airport configuration; capacity 390. Civil Engineering Analysis analysis; management systems. tion materials. Emphasis on aggregates, as­ Fall, Spring. 4(4-0) MTH .215 and phalt, inorganic cements, concrete, and wood. CPS 120. Analysis of civil engineering problems by numer­ 448. Transportation Planning 311. Urban Utilities ical and statistical methods, Approximate Winter, 3(3-0) 342 or 346. Winter. 3(3-0) methods and error analysis. Application to com­ Urban transportation facilities needs and pro­ puter use. Capacities, limitations and cost of public and grams. Design of transportation models for semi-public utilities as they relate to the plan­ urban highways and public transit including ning and design of the urban environment. 400. Structural Mechanics II trip generation, trip distribution, mode split Topics include transportation, water supply, and traffic assignment. Transport agencies storm drainage, sewage collection and treabnent, Fall, Summer. 4(4-0) 305. function and services. solid waste and municipal finance. Miscellaneous topics in displacement calculation by virtual work. Matrix formulation of the general principles of framed structural analysis. 449. Highway Engineering 312. Soil Mechanic• I Exhaustive study of the fiexibility and stiffness Spring, 3(2-2) 308, 347. Spring, Summer. 4(3-3) MMM 211. methods. Design concepts of roadways, facilities, drain­ Engineering properties of soils and their meas­ age and pavement design. Maintenance, con­ urement. Effective stress concept; permeability; 405. Structural Design in Steel struction and supervision methods and proce­ fluid flow in soils; stress-strain behavior; soil dures. strength; compactiun and consolidation of soils; Fall, Winter, 4(4-0) 305. field exploration and design problems. Beams, columns, tension and compression mem­ bers, connections. Elastic, plastic and ultimate 471. Scheduling Construction 321. Introductory Fluid Mechanics strength concepts. Activities Fall, Winter, Spring. 5(4-2) MMM (871.) Winter. 3 Cf'edit.J. Approval 306 406. Structural Design in Concrete of department. F1uid properties; hydrostatics; control volume Winter, Spring. 4(4-0) 305. Techniques for coordinating and controlling approach to conservation of mass, momentum Reinforced concrete beams, columns, slabs, construction projects. Scheduling under the and energy; dimensional analysis and dynamic footings and retaining walls. Elastic theory and constraints of deadlines, uncertain time esti­ similitude; fluid resistance; pipe and open chan­ ultimate strength concepts. Prestressed theory mates and limited resources. Computer pro­ nel 8ows; boundary layer concepts. and design, grams and data files for effective management.

A-37 Descriptions- Civil ancl Sanitary Engineering of Courses

481. Water and Wastewater Analysis 809. Finite Element Method 829. Fluid Transients (487.) Fan. 4(3-3) 280. Fall. 4(4-0) Approval of deparl­ Spring of odd-numbered years. 4(4-0) Quantitative analysis; bacteriologic and chemical ment. Inte-rdeparlmental with the deparlments 828 or app1'0val af department. characteristics of water and wastewater; prin­ of Metallurgy, Mechank:a and Materiala Science Application of unsteady flow concepts and wave ciples of softening, iron removal, coagulation and Agricultural Engineering and administered mechanics to hydraulic engineering; method of and chlorination; laboratory examination of by the Department of Metallurgy, Mechanics characteristics; surges and waterhammer in pip­ water and wastewater including turbidity, sol­ and Materials Science. ing systems; unsteady open channel flow; oscil­ ids. coliforms, chlorine, etc. Theocy and application of the finite element latory waves; similitude and models. For stu­ method to the solution of continuum type prob­ dents interested in fluid mechanics. lems in heat transfer, fluid mechanics and stress 483. Watu and Wastewater analysis. Treatment 840. Pavement Design Spring. 4(3-2) 280, 421, 422 or coo­ 815. Principles of Highway and Spring of even-numbered years. 3(3-0) currently. Not open to graduate majors in Airport SoUs 449. sanitary engineering. Winter. 4(4-0) 347. Pavement types and wheel loads, stresses in Water treatment theory and design including Foundation problems as related to highways and flexible pavements, stresses in rigid pavements, sedimentation, coagulation, softening, iron re­ airports, relation of subsoil conditions to design pavement behaviors under loadings, climate ef­ moval and chlorination; wastewater treatment and construction, analytical review of laboratory fects on pavement performance, evaluating sub­ theory and design including grit chambers, ac­ and field results. soil strengths, subgrades, and pavement design tivated sludge, trickling filter, and anaerobic criteria. digesters. 817. Mechanical Propef'fies of Soils Fall. 4(3-3) 419 or approval of de- 841. Optimization of Urban TraDic 485. Environmental Health parlment. Flow Engineering Mechanical properties of soil including stress­ Fall of odd-numbe-red years. 3(3-0) Winte1'. 3(3-0) MPH 200, C E 280. strain behavior; conditions of failure and shear Approval of department. Inte-rdeparlmenta~ with Epidemiology of communicable disease trans­ strength; consolidation theory and permeability. and administered by Systems Science. mitted by air, water, food and arthropods. En­ Laboratory determination of soil properties in­ Traffic flow models used in design of computer­ gineering measures to control disease spread. cluding interpretation of experimental data for ized traffic control systems. Optimal freeway Incidence and prevalence rates, well design, use in practice. ramp metering algorithms. Offline and online cross-connections. disinfection, sanitary inspec­ optimization of traffic signal timing. tion. Case studies. 818. Advanced Soil Mechanics Winter. 4(4..0) 419; 817 recom- 499. Civil Engineering Proiects mended. 842. Pavement Rehabilitation Fall, Winter, Spring, Summer. Vari­ Foundations and earth retaining structures; Spring of odd-numbered yeara. 4(4-0) able credit. May re-enroll for a maximum of 6 bearing capacity, lateral resistance and settle­ 449. credits. Approval of deparlment. ment of deep foundations; earth pressures on Strengthening existing pavements, pavement Original civil engineering problem of specific braced excavations and sheet pile walls; design overlay design criteria, epoxy and polyester interest to the student and a faculty member. of caissons and cofferdams. resin repair and rehabilitation, evaluation of Student's proposal describing problem required resurfacing practices for bituminous and oe­ prior to approvaL 819. Soil Stabilization in Geotechnical ment pavements. Engineering 800. Operations Research Techniques Summer. 3(3-0) 419, 843. Traffic Engineering for Civil Engineers Techniques to improve the performance of soil Characteristics Fall. 3(3-0) Graduate standing. in engineering applications; compaction, blend­ ing, admixture, grouting, electrosmosis, vibro­ Winter. 3(3-0) 346, STT 421. Elements of deterministic methods of operations flotation, compaction piles, thermal treatment, Safety analyses, flow and capacity character­ research with emphasis on computational tech­ load bearing and hydraulic fills, precompres­ istics, statistical properties of traffic, queuing niques and applications to civil engineering sion, reinforced earth. characteristics at intersections, delay character­ problems such as structural design, water sup­ istics and analyses. ply, transportation, and construction manage­ ment. 820. Geotechnical Engineering for Cold Regions 844. Traffic Engineering Theory Spring. 3(3-0) 419 01 approval of 802. Structural Dynamics I deparlment. and Control Fall. 3(3-0) 405, 406, or approval Physical and thermal properties of ice and Spring. 3(3-0) 843. vf deparlment. frozen soils; ground thermal regime; mechanical Application of the theory of traHic flow to the Basic concepts in structural dynamics; dynamic properties of frozen ground; thaw consolidation design and control of traffic streams. Dis­ loading on structures due to blasts and earth­ problems; foundation desib'll; slope stability patching, scheduling and network analysis, Ap­ quakes; dynamic properties of structures; meth­ problems; and artificial freezing for construction. plication to highways, airport operation and ods of analysis; design approach to blast and urban transportation modes. earthquake resistant structures; dynamic be­ 821. Flow of Fluids in Porous Media havior of bridges and other topics. Fall. 3(3-0) 422 or appf'oval of de- partment. 845. Environmental Impacts of 804. Advanced Structural Theory I Structure and properties of porous media. Fluid Transportation Facility Design Winter. 4(4-0) 400, or approtlal of flow in saturated and unsaturated media. Two­ Decisions deparlment. phase flow. Darcy's and Navier Stokes equa­ Spring. 3(3-0) 342 Of 346, 448; or tions. Two-dimensional sink How. Multiple approval of deparlment. Energy principles and their application in the sources and sinks. Potential theory and conform­ The context in which current transportation analysis of elastic structures. Advanced force al mapping. Permeability in an anisotropic and displacement methods and their matrU:: planning and design decisions are made; legis­ fonnulation. Introduction to finite element medium. lation; socio-economic e"ffects; air, noise, and methods. water pollution. Preparation of environmental 827. Environmental Fluid Mechanics impact statements. Spring of even-numbe-red years. 4(4-0) 805. Advanced Theory of Reinforced 422 or appr01)al of department. Concrete I Review of turbulent flow and transport proc­ 846. Highway Planning Winter. 3(3-0) 406. esses .in water quality control. Analysis and FaU. 3(3-0) 346 01' approtlal of de­ Deffection, torsion, shrinkage, plastic flow, and solution of ecological problems related to diffu.. partment. ultimate strength of concrete structures. Pre­ sion and disposal in rivers, estuaries, lakes and Highway inventory, road use studies and pro­ stressed concrete. the ocean environment. graming, analysis of highway costs, economic considerations in location and design. 828. Open Channel Flow 807. Model Analysis Winter. 3(3-0) 422 or approval of Fall. 3(2-3) 406. deparlment. 847. Geometric Design of Highways Basic theory of the analysis of structures by Fundamentals of free surface flow; steady uni­ Winter. 3(3-0) 346 01' approval vf means of models. Laboratocy work on models; form and nonuniform concepts; energy and mo­ deparlment. Begg's deformeter and electric resistance type mentum principles; subcritical and supercritical Design of streets and highways including inter­ gauges for the measurement of static and dy­ regimes; gradually and rapidly varied fl-ow; sections, parking facilities, capacity, channel­ namic strains. design applications. ization and roadway appurtenances.

A-38 Communication -Descriptions ol Courses

848. Transportation Models 999. Research CLASSICAL STUDIES Spring. 3(3-0) 448. Fall, Winter, Spring, Summer. Vari- See Romance and Classical Languages Analysis of transportation modeling process, able credit. Approval of department. including error propagation and parameter sensitivity analysis. Comparative attributes of zonal size and model sequence decisions on the evaluation of system alternatives. Sanitary Engineering S E COM 880. Special Problems in Civil 802. Physical Chemical Processes of COMMUNICATION Engineering Environmental Engineering Fall, Winter, Spring, Summer. Vari- Fall. 4(3-3) G E 481 or concurrently. College of Communication Arts and able credit. Approval of department. Analysis of physical and chemical principles Sciencest Research problems of limited scope not pertain­ which form the basis of air and water pollution ing to thesis accomplished under 899 or 999. control and solid waste disposal; process dy­ I namics, sedimentation, coagulation, filtration, 100. Human Communication adsorption, absorption, oxidation. Fall, Winter, Spring, SammeT'. 3(3-0) 899. Research Process and functions of oommunication. Prin­ Fall, Winter, Spring, Summer. Vari­ ciples underlying communication behavior. able credit. Approval of department. 804. Biological Processes of Practice in analyzing communication situations Environmental Engineering and in speaking and writing. 905. Advanced Theory and Design of (906.) Winter. 5(4-3) MPH 200, C E Reinforced Concrete II 280, S E 802. 101. Human Communication II Aerobic and anaerobic degradation of liquid and Spring. 3(3-0) 805. Fall, Winter, Spring, Summer. 3(3-0) solid wastes. Biochemical reactions; activated 100. Continuation of 805 with application of theory sludge and trickling 6lter kinetics; sludge di­ to analysis and design of tanks, rigid frames, gestion and composting. Continuation of 100, with greater emphasis on and shells. speaking and writing, and on analyzing increas­ ingly complex communication situations. 812. Water Treatment Plant Design 906. Advanced Structural Steel (805.) Winter. 4(3-3) G E 370, 483, 115. Oral Communication Design 828, S E 802. Fall, Winter, Spring, Summer. 3(3-0) Spring. 3(3-0) 406. Theory and design of water treatment processes. 100 or aprn-oval of department. Analysis and design of multiple-story building Coagulation and flocculation; softening; sedi­ Principles and practice in adapting to audiences, frames, continuous trusses and rigid-frame girder mentation; filtration; disinfection. creating and structuring messages, and develop­ bridges in structural steel. Plastic design. ing effective delivery of formal and informal speeches. Critical evaluation of speeches by 814. Wastewater Treatment Plant instructor and peers. 909. Elastic Thin Shells Design Spring. 4(4-0) 804 or MMM 815 (806.) Spring. 4(3-3) C E 370, 483, 199. Methods of Inquiry or approval of department; MTH 421. Inter­ 828, S E 804. Fall, Winter, Spring, Summer. 3(3..0) departmental with the Department of Metallurgy, Theory and design of wastewater treatment Majors and minor.t only. 101. Mechanics and Materials Science. processes. Racks, screens, sedimentation basins, Major theoretic orientations toward communica­ Elements of differential geometry, membrane trickling filters, aeration tanks, digesters. tion. Primary tools of scholarly inquiry. theory of shells, Pucher's stress function, de­ formation and bending of shells of revolution and shallow shells. 816. Treatment of Industrial Wastes 205. Persuaftan (803.) Spring. 3(3-0) 804. Fall, Winter, Spring, Summer. 4(4-0) 912. Theory of Plates Theory of industrial waste management. Appli­ 101. cation of physio-chemical and biological treat­ Process of influencing human behavior through Winter. 4(4..0) 804 or MMM 815 ment to selected industries. Examples include: persuasive communication, Experience in creat­ or approval af department; MTH 422. Inter­ apparel; food processing; materials processing ing persuasive messages and in evaluating the departmental with and administered by the and chemical industry, acceptability of persuasive attempts. Department of Metallurgy, Mechanics and Ma­ teriab Science. Bending of thin elastic plates with various 822. Air Resource Management 210. Leadership shapes and boundary conditions; application of Fall o1 even-numbered years. 4(4-0) Fall, Winter, Spring. 4(4-0) 100. energy principles and approximate methods of 802 or concurrently. Principles and practice in the utilization of solution; thick plates; large deflection theory; Characteristics of air contaminants and noise; communication for effective leadership. sandwich plates. sources and source inventory; microclimitology and pollutant transport; pollutant effects, intro­ duction to sampling and control. 299. Individual Projects 915. Earth Structures Fall, Winter, Spring, Summer. Vari­ Spring. 3(3-0) 817 or approcal of able credit. May re-enroll for a maximum of department. 899. Research 15 credits. 199, approval af proiect propo.tal Embankments, earth dams, natural and cut Fall, Winter, Spring, Summer. Var­ by department. slop-es, stability of circular and composite slip iable credit. Approval of department. Independent research, e:rperience in communi­ surfaces; performance of embankments on soft cation laboratories, or tutorial work in com­ foundations; seepage through earth dams; in­ munication skills. strumentation for field performance evaluation. 922. Air Pollution Control Winter of odd-numbered years. 4(3-3) 300. The Effects oj Mass 916. Soil Dynamics C E 321; S E 802, 822. Commuunication I Winter. 3(3-0) 817 or aprn-oval of Application of physical and chemical principles Fall, Winter, Spring, Summer. 4(3-0) department. to control of gaseous and particulate air pol­ Maiors must enroll in 300R concurrently. lutants. Cyclones, bag houses, electrostatic pre­ Characteristics of ground motions during earth­ Major social effects of mass media on audienoe cipitators, adsorption, absorption, combustion. quakes; dynamic soil properties; liquefaction behavior. Political communication. Media ef­ and settlement under transient and repeated fects on children. Message strategies producing loadings; foundation design for vibratory loads; 924. Air Sampling and Analysis attitude change. Interrelationship between mass wave propagation in soil media. media and interpersonal communication. De­ Spring of odd-numbered years. 4(3-3) cision making in mass media. 922. 941. Mass Transit Routing and Theory and design of air sampling programs. Scheduling Quantitative analysis of ambient air samples and 300R. EfJects of Communication II Fall o1 even-numbered years. 3(3-0) stack samples. Analysis for sulfur oxides, nitro­ Fall, Winter, Spring, Summer. 1 cred­ 848 or aprn-oval of department. gen oxides and particulates. it. Majors. 300 concurrently. Routing algorithms for mass transit vehicles in In-depth consideration of effects of oommunica­ urban networks; dispatching of vehicles by tion. dynamic programming and other algorithms; 999. Research variable headway, variable route transit system Fall, Winter, Spring, Summer. Var- tName changed effective July 1, 1975. Formerly studies. iable credit. Approval of department. College of Communication Arts.

A-39