Civil Engineering

CE 90 abc. Structural Analysis and Design. 9 units (3-0-6); first, second, third terms. Prerequisite: ME 35 abc. Structural loads; influence lines for statically determinate beams and trusses; deflection of beams; moment area and conjugate beam theorems; approximate methods of analysis of indeterminate structures; slope deflection and moment distribution techniques. Generalized stiffness and flexibility analyses of indeterminate structures. Design of selected structures in timber, steel, and reinforced concrete providing an introduction to working stress, load and resistance factor, and ultimate strength approaches. In each of the second and third terms a design project will be undertaken involving consideration of initial conception, cost-benefit, and optimization aspects of a constructed facility. Instructor: Hall.

CE 95. Introduction to Soil Mechanics. 9 units (2-3-4); second term. Prerequisite: ME 35 ab. A general introduction to the physical and engineering properties of soil, including origin, classification and identification methods, permeability, seepage, consolidation, settlement, slope stability, and lateral pressures and bearing capacity of footings. Standard laboratory soil tests will be performed. Not offered 2005–06.

ME/CE 96. Mechanical Engineering Laboratory. 6 or 9 units as arranged with instructor. For course description, see Mechanical Engineering.

CE 100. Special Topics in Civil Engineering. Units to be based upon work done, any term. Special problems or courses arranged to meet the needs of first-year graduate students or qualified undergraduate students. Graded pass/fail.

Ae/APh/CE/ME 101 abc. Fluid Mechanics. 9 units (3-0-6). For course description, see Aeronautics.

Ae/AM/CE/ME 102 abc. Mechanics of Structures and Solids. 9 units (3-0-6). For course description, see Aeronautics.

CE/Ae/AM 108 abc. Computational Mechanics. 9 units (3-0-6); first, second, third terms. Prerequisite: instructor’s permission. Numerical analysis by the finite element method covering fundamental concepts and computer implementation. Solution of systems of linear equations and eigenvalue problems. Solution of the partial differential equations of heat transfer, solid and structural mechanics, and fluid mechanics. Transient and nonlinear problems. Not offered 2005–06.

CE 113 ab. Coastal Engineering. 9 units (3-0-6); first, second terms. Prerequisites: ME 19 ab or equivalent; ACM 95/100 abc. Engineering applications of the theory of small and finite amplitude water waves; diffraction, reflection, refraction; wind-generated waves and wave prediction procedures; tides and their interaction with the coastline; effect of waves on coastal structures such as breakwaters and pile-supported structures; coastal processes. Not offered 2005–06.

CE 115 ab. Soil Mechanics. 9 units (3-0-6); first term. 9 units (2-3-4); second term. Prerequisite: instructor’s permission. Study of the engineering behavior of soil through examination of its chemical, physical, and mechanical properties. Classification and identification of soils, surface chemistry of clays, interparticle reactions, soil structure. Linear constitutive relations for soils, including steady-state and transient water flow. Second term: nonlinear soil behavior, theories of yielding, plasticity, constitutive models, and problems of plastic stability. Failure modes of footings, walls, and slopes. Not offered 2005–06.

CE 130 abc. Civil Engineering Seminar. 1 unit (1-0-0); each term. All candidates for the M.S. degree in civil engineering are required to attend a graduate seminar, in any division, each week of each term. Students not registered for the M.S. degree in civil engineering must receive the instructor’s permission. Graded pass/fail. Instructor: Staff.

CE 150. Foundation Engineering. 9 units (3-0-6); third term. Prerequisite: CE 115 ab. Methods of subsoil exploration. Study of types and methods of design and construction of foundations for structures, including single and combined footings, mats, piles, caissons, retaining walls, cofferdams, and methods of underpinning. Text: Foundation Analysis, Scott. Not offered 2005–06.

CE 160 abc. Structural and Earthquake Engineering. 9 units (3-0-6); first, second, third terms. Prerequisite: CE 90 or equivalent. Topics forming the foundation for structural analysis and design are covered. Techniques for linear and nonlinear, static and dynamic analysis, including analysis of structure-foundation and structure-fluid systems, the nature of loadings due to wind and earthquake, concepts in design. Special consideration is given to behavior and design of specific structural systems such as buildings, bridges, concrete dams, liquid-storage tanks, tunnels and pipelines, cable structures, and offshore structures. Special emphasis on engineering for earthquakes. Not offered 2005–06.

CE 180. Experimental Methods in Earthquake Engineering. 9 units (1-5-3); third term. Prerequisite: AM 151 abc or equivalent. Laboratory work involving calibration and performance of basic transducers suitable for the measurement of strong earthquake ground motion, and of structural response to such motion. Study of principal methods of dynamic tests of structures, including generation of forces and measurement of structural response. Not offered 2005–06.

CE/Ge 181. Engineering Seismology. 9 units (3-0-6); first term. Characteristics of potentially destructive earthquakes from the engineering point of view. Determination of location and size of earthquakes; magnitude, intensity, frequency of occurrence; engineering implications of geological phenomena, including earthquake mechanisms, faulting, fault slippage, and effects of local geology on earthquake ground motion. Instructor: Heaton.

CE 200. Advanced Work in Civil Engineering. 6 or more units as arranged; any term. Members of the staff will arrange special courses on advanced topics in civil engineering for properly qualified graduate students. The following numbers may be used to indicate a particular area of study.

Ae/AM/CE/ME 214 abc. Computational Solid Mechanics. 9 units (3-0-6). For course description, see Aeronautics.

CE 300. Research in Civil Engineering. Hours and units by arrangement. Research in the field of civil engineering. By arrangements with members of the staff, properly qualified graduate students are directed in research. For courses in Environmental Science and Engineering, see that section.