74 / FIELDS OF INSTRUCTION Service Professor: J. H. Schaub. Professors: B. A. Chris- tensen; K. G. Courage;J. L. Davidson; D. U. Deere; D. S. Ellifritt; C. 0. Hays; Z. Herbsman; W. C. Huber; A. J. Mehta; B. E. Ruth; M. W. Self; B. D. Spangler; F. C. Townsend; J. A. Wattleworth; J. Zoltek. Engineer: C. E. Wallace. Associate Professors: C. A. Collier; J. L. Eades; F. E. Fagundo; G. Long; J. M. Lybas; M. C. McVay; L. H. Motz; S E. Smith; M. Tia; W. H. Zimpfer. Associate Engineer: W. G. Shafer. Assistant Professors: D. G. Bloomquist; K. Hatfield; M. I. Hoit; F. T. Najafi; R. Shrestha. The following graduate degrees are offered to prepare qualified students for the professional practice of civil en- gineering: Master of Civil Engineering, Master of Engi- neering, Master of Science, Engineer, and Doctor of Philosophy. All degree programs include areas of concen- tration in the specialities of construction, geotechnical engineering, hydraulics, structures, and transportation engineering. All degrees except the Ph.D. are available in a thesis or nonthesis program. Nonthesis degree students usually must successfully complete a report of substantial engineering content for a minimum of two hours credit in CGN 6974. However, upon recommendation of the supervisory committee and the Department Chair, the student may substitute suffi- cient course work for the nonthesis report. Minor or supporting work is encouraged from a variety of related or allied fields of study. Subject to approval by the supervisory committee, graduate level courses taken through the Departments of Aerospace Engineering, Mechanics, and Engineering Science; Coastal and Oceanographic Engineering; Envi- ronmental Engineering Sciences; and Geology are con- sidered as major credit. CCE 5035-Construction Planning and Scheduling (3) Prereq: CCE4204. Planning, scheduling, organizing, and control of civil engineering projects with CPM and PERT. Application of optimi- zation techniques. CCE 5405-Construction Equipment and Procedures (2) Prereq: CCE 4204 or consent of instructor. Design and optimization of equipment systems for heavy construction. CCE 6037-Civil Engineering Operations 1 (2) Prereq: graduate status. Advanced construction engineering and management procedures at the project level to support quantitative decision making. CCE 6038-Civil Engineering Operations II (2) Prereq: CCE4204 or consent of instructor. Advanced construction engineering techniques and management coordination procedures for civil engineering projects. CCE 6505-Computer Applications in Construction Engineering (3) Prereq: COP 3212, CCE 5035, or consent of instructor. Application of computer solutions to construction engineering/ civil engineering management problems; use of microcompu- ters. CEG 5115-Foundation Design (3) Prereq: CEG 4012, CES 4702, or consent of instructor. Investigations, bearing capacity, and the analysis and design of shallow footings, walls, and deep pile foundations. CEG 5205-Insitu Measurement of Soil Properties (3) Prereq: CEG 4011, 4012 or consent of instructor. Methods of soil exploration; techniques of soil sampling and insitu testing. CEG 5205L-Laboratory for Insitu Measurement of Soil Proper. ties (1) Prereq: CEG 4011, 4012. Field performance of insitu soil testing and sampling. CEG 5605-Earth and Rockfill Dams (2) Prereq: CEG 4012. Design requirements, construction techniques, compaction control, soil testing and sampling, foundation preparation, and field instrumentation. CEG 6016-Advanced Soil Mechanics (3) Prereq: CEG 4011, 4012, or consent of instructor. Nature and origin of soil. Stresses within a soil body. Stress-strain behavior and shear strength of dry, saturated transient flow soils. CEG 6017-Theoretical Soil Mechanics (2) Prereq: consent of in- structor. Nature of soil-water systems; analysis of stress, strains, equations of state; rheological behavior of soils; failure in soil media. CEG 6125-Soil Stabilization (2) Prereq: graduate standing or consent of instructor. Highway soil stabilization, methods of sta- bilization, and behavior of materials. CEG 6305-Rock Mechanics and Engineering Geology (2) Pre- req: CEG 4012. Behavior of rock subject to stress. Application of rock mechanics and geology to the planning, design, and con- struction of engineering structures. CEG 6405-Groundwater Problems in Geotechnical Engineer- ing (2) Prereq: CEG 4011, 4012, or consent of instructor. Darcy's law, coefficient of permeability, flownets; seepage forces. Engi- neering applications-dewatering systems, slope stability, filter design, earth dams, drainage. CEG 6505-Computer Applications in Geotechnical Engineer- ing (2) Prereq: CGN 4421, CEG 6015 or consent of instructor. Application of computer solutions to geotechnical engineering problems. CEG 6807-Advanced Geotechnical Engineering I (4) Prereq: CEG 6015 or consent of instructor. Application of soil mechanics to the design and analysis of settlement, slope stability, and bearing capacity problems. CEG 6808-Advanced Geotechnical Engineering II (4) Prereq: CEG 6015 or consent of instructor. Application of soil mechanics to the design and analysis of bearing capacity and earth pressure problems. CES 5116-Finite Elements in Civil Engineering (3) Prereq: CES 4141. Introduction to finite elements, use of finite element concepts for structural analysis. Application of 1-, 2-, and 3-D elements of structural problems. CES 5305-Design of Structural Systems (2) Prereq: CES 4605, 4702. Fundamental characteristics of structural systems. Eco- nomic and architectural considerations. Building frames and connections. Plate girders. Special structures. CES 5325-Design of Highway Bridges (3) Prereq: CES 4605, 4702. Analysis by influence lines, slab and girder bridges, composite design, prestressed concrete, continuity, arch bridges, design details, highway specifications. CES 5607-Behavior of Steel Structures (3) Prereq: CES 4605. Plastic analysis and designs of beams and frames. Buckling and stability problems. Connections. CES 5715-Prestressed Concrete (3) Prereq: CES 4702. Analysis and design of prestressed concrete flexural members; pre- and post-tensioned construction, allowable stress, strength evalu- ation; design for bending moments and shear; evaluation of serviceability requirements; design of simple bridges. CES 5726-Design of Concrete Systems (3) Prereq: CES 4702. Strength design of members and frames, torsion, two-way slabs, design of building systems, prestressed concrete. CES 5801-Design and Construction in Timber (2) Prereq: con- sent of instructor. Analysis and design in timber. Beams, col- umns, and connections. Timberstructure. Plywood beams, panels, diaphragms. Laminated beams and frames. Formwork. CES 5835-Design of Reinforced Masonry Structures (3) Prereq: CES 4705. Properties of clay brick, concrete block and mortar, beams and columns, structural walls, joints and details. CES 6106-Advanced Structural Analysis I (4) Prereq: CES 4605, 4702. Traditional methods of analyses for forces and deforma- tions; modern matrix methods including direct stiffness method. CES 6108-Advanced Structural Analysis II (3) Prereq: EGM 3400, CES 6106. Evaluation of structural response to the effect of dynamic loads for single- and multidegree of freedom systems. Consideration of seismic and wind effects, modal analysis, numerical methods, structural idealization, response spectra, and design codes. CES 6136-Advanced Structural Laboratory (2) Prereq: CES 4605,4702. Model studies and analysis. Mechanics of similitude and dimensional analysis applied to static and dynamic struc- tural problems. Research topics. Experimental stress analysis. Instrumentation. CES 6165-Computer Methods in Structural Engineering (3) Prereq: COP 3212, CES 6106. Modern program development techniques for structural analysis. Efficiency, databases, modu- larity, equation solving, and substructure programming con- cepts. CES 6526-Nonlinear Structural Analysis and Design (2) Prereq: