USF 1998-99 Undergraduate Catalog - Pages 205 - 207
CEG 4011 SOIL MECHANICS I (3)
PR: EGN 3353C. Fundamental and experimental concepts in soil mechanics with emphasis on soil properties, soil moisture, soil structure, and shearing strength.
CEG 4011L GEOTECHNICAL LABORATORY (1)
CR: CEG 4011. Demonstrates and experiments verifying theoretical bases of Geotechnical Engineering. One hour lecture and two laboratory hours per week.
CEG 4012 SOIL MECHANICS II (3)
PR: CEG 4011. Design of retaining walls, earth slopes, foundations to control settlement, soil stabilization and foundations subjected to dynamic loads. Computer applications to soil mechanics will be covered.
CEG 4801 GEOTECHNICAL DESIGN (2)
PR: CEG 4011. Design of geotechnical systems including bases, foundations, embankments, and dams.
CEG 4850 CAPSTONE GEOTECHNICAL/TRANSPORTATION DESIGN (3)
PR: CEG 4011, TTE 4004. A capstone geotechnical/transportation design experience for seniors in Civil and Environmental Engineering. Design of embankments and pavement bases. Comprehensive surface streets. Open highway intersection and site design involving functional design, facility sizing, complete alignments and coordination, plan preparation, site layout and design, quantity summarization, bid tab planning and specification preparation.
CEG 5115 FOUNDATION ENGINEERING (3)
PR: CEG 4011 or CI. Design of shallow foundations, cantilevered and anchored retaining walls, piling, drilled piers and special foundations. Computer applications to geotechnical engineering are covered.
CEG 5205 LABORATORY TESTING FOR GEOTECHNICAL ENGINEERS (3)
PR: CEG 4011 or CI. Both routine and advanced forms of soil testing are covered. Emphasis is placed on procedures and application of results to design.
CES 3102 STRUCTURES I (3)
PR: EGN 3331. Analysis of simple structural systems, both determinate and indeterminate. Introduction to the use of energy methods in indeterminate structures.
CES 4000 STRUCTURES AND THE URBAN ENVIRONMENT FOR NON-ENGINEERS - 6A -XMW (3)
This course reviews the best works of structural engineering to indicate how current technology and social context affects structural form, to familiarize students with relevant structural principes, and to introduce the concept of structural art.
CES 4141 MATRIX STRUCTURAL ANALYSIS (3)
PR: CES 3102. Analysis of structures by use of matrix techniques and the digital computer. An introduction to finite analysis techniques.
CES 4561 COMPUTER AIDED STRUCTURAL DESIGN (3)
PR: CES 4141. Computer aided structural analysis and design using existing finite element program, static dynamic loading.
CES 4605 CONCEPTS OF STEEL DESIGN (3)
PR: CES 3102. Introduction to steel design and AISC Manual of Steel Construction: Design of tension members; compression members; beams; beam columns; and bolted, welded, and riveted connections.
CES 4618 STRUCTURAL DESIGN STEEL (2)
PR: CES 4605. Design of structures made of steel.
CES 4702 CONCEPTS OF CONCRETE DESIGN (3)
PR: CES 3102. Introduction to concrete design and the ACI Building Code Requirements for reinforced concrete: Design of flexural reinforcement in beams and slabs, design of shear reinforcement, design of concrete columns.
CES 4704 STRUCTURAL DESIGN-CONCRETE (2)
PR: CES 4702. Design of concrete structures.
CES 4720 CAPSTONE STRUCTURAL/ MATERIALS DESIGN (3)
PR: EGN 3365, CES 4702, CES 4605. A Capstone Materials design experience for seniors in Civil and Environmental Engineering. This course will provide students with a focused design experience aimed to design for durability and reliability.
CES 4740 CAPSTONE STRUCTURAL/GEOTECHNICAL DESIGN (3)
PR: EGN 3365, CES 4605. A capstone structural/geotechnical design experience for seniors in Civil and Environmental Engineering. Design of structures and foundations made of steel and reinforced concrete.
CES 4742 CONCEPTS OF STRUCTURAL DESIGN (3)
PR: CES 3102. Introduction to concrete design and the ACI Building Code Requirements for reinforced concrete; design of flexural reinforcement in beams and slabs, design of sheer reinforcement, design of concrete columns, and design of steel beams.
CES 4820C TIMBER AND MASONRY DESIGN (3)
PR: CES 3102, CES 4702. Fundamentals of timber design including beams, columns, connections and formwork. Introduction to masonry design including design of beams, walls, columns, and pilasters.
CES 5105C ADVANCED MECHANICS OF MATERIALS I (3)
PR: EGN 3331, MAP 2302. Analytical study of the mechanical behavior of deformable solids. Basic concepts, stress and strain transformations, special topics in beams, introduction to theories of elasticity, and bending of thin plates.
CES 5209 STRUCTURAL DYNAMICS (3)
PR: CES 3102. Behavior of structural components and systems when subjected to periodic dynamic loads.
CES 5715C PRESTRESSED CONCRETE (3)
PR: CI. Fundamental principles of prestressing; calculation of losses; stress analysis and design of simple beams for flexure and shear. Examples of prestress applications.
CGN 3021L CIVIL ENGINEERING LABORATORY (2)
PR: CES 3102, EGN 3353, EGN 3365. A laboratory experience in departmental facilities including the subject areas of structures, materials, fluids, transportation, soils, engineering mechanics, environmental engineering, and computer assisted data acquisition.
CGN 4122 PROFESSIONAL AND ETHICAL ISSUES IN ENGINEERING -XMW (3)
Focus on engineering responsibilities in the technical aspects of preparing contracts and specifications. Objectives are to teach the student their legal and ethical responsibilities in the preparation of contracts and specifications. Make the student aware of technical problems in the preparation of specification; bid documents and contracts. Emphasis of ethics of engineer-client agreements.
CGN 4851 CONCRETE CONSTRUCTION MATERIALS (3)
PR: EGN 3365L. Classifications and production of cements. Design and testing of concrete mixes to produce desired properties.
CGN 4905 INDEPENDENT STUDY (1-5)
PR: CC. Specialized independent study determined by the students’ needs and interests. May be repeated up to 15 credit hours. (S/U only.)
CGN 4911 RESEARCH IN CIVIL ENGINEERING AND MECHANICS (1-4)
PR: CC.
CGN 4914 SENIOR PROJECT (2-5)
PR: CI. Problem-solving experience and training for seniors in research and/or design projects. Written final reports are required.
CGN 4933 SPECIAL TOPICS IN CIVIL ENGINEERING AND MECHANICS (1-5)
PR: CI. New technical topics of interest to civil engineering students.
CGN 5933 SPECIAL TOPICS IN CIVIL ENGINEERING AND MECHANICS (1-5)
PR: CI. New technical topics of interest to civil engineering students. May be repeated up to 6 credit hours.
CWR 4103 WATER RESOURCES ENGINEERING (3)
PR: CWR 4202. A study of the engineering principles involved in sustaining and managing the quantity and quality of water available for human activities with particular emphasis on surface water and ground water hydrology.
CWR 4202 HYDRAULICS (3)
PR: EGN 3353. Fundamental and applied aspects of pipe flow, free surface flow, and unsteady flow for hydraulic systems.
CWR 4810 HYDRAULIC DESIGN (2)
PR: CWR 4103, 4202. Design of hydraulic systems, including drainage, water supply, and flood control.
CWR 4812 CAPSTONE WATER RESOURCES DESIGN (3)
PR: CWR 4202, CWR 4103. A capstone water resources design experience for seniors in Civil and Environmental Engineering. A design oriented course to design both industrial and domestic water treatment, and water transport systems and hydraulic systems, including drainage, water supply, and flood control.
EMA 4324 CORROSION OF ENGINEERING MATERIALS I (3)
PR: EGN 3365L. Principles of electrochemical corrosion and the representation of corrosion processes by polarization diagrams. Origin and prevention of the localized forms of corrosion and approaches to corrosion control.
EMA 4703 FAILURE ANALYSIS AND PREVENTION (3)
PR: EGN 3365L, EGN 3331. Failure criteria and the analysis of failures produced by combined states of stress. Principles of fracture mechanics and fatigue. Damage to materials produced by various environments including elevated temperatures and radiation.
ENV 3001 ENVIRONMENTAL ENGINEERING (3)
CR: ENG 3353. An introduction to various aspects of environmental problems faced by today's society. Topics covered are: air pollution, water pollution, noise pollution, solid waste management, ionizing radiation, disease transmission, and food protection.
ENV 4004L ENVIRONMENTAL ENGINEERING LABORATORY (1)
PR: ENV 3001, CR: ENV 4502. Laboratory experience in the measuring of environmental parameters.
ENV 4101 AIR POLLUTION CONTROL (3)
PR: EGN 3353. Behavior and effects of atmospheric contaminants and the principles of making measurements in the air environment. Basic concepts of meteorology and control technology are discussed. Regulatory aspects and air pollution standards are covered.
ENV 4400 CHEMICAL ASPECTS OF ENVIRONMENTAL ENGINEERING (3)
PR: One year general chemistry. Environmental quality and treatment parameters; sampling and sample preservation techniques; selected measurement techniques; interpretation and analysis of data; emphasis on water chemistry principles. Course is restricted to students pursuing the environmental engineering option in Civil Engineering and Chemical Engineering.
ENV 4417 WATER QUALITY AND TREATMENT (3)
PR: EGN 3353. An introduction to municipal water supply and waste water treatment. Topics include water requirements and waste volumes, water quality, physical and chemical treatment processes, and advanced wastewater treatment processes.
ENV 4432 WATER SYSTEMS DESIGN (2)
PR: EGN 3353. Corequisite ENV 4503. A design oriented course which utilizes the theory obtained in the Unit Operations course to design both industrial and domestic water treatment and water transport systems. It emphasizes the design procedures normally used in engineering practice.
ENV 4502 ENVIRONMENTAL UNIT OPERATIONS (3)
PR: EGN 3343, EGN 3353. CR: ENV 3001 The theory and the design of unit operations normally used in the practice of environmental engineering, such as agitation and mixing of liquids, filtration, leaching, gas absorption, sedimentation and clarification, drying, and evaporation.
ENV 4503 ENVIRONMENTAL UNIT PROCESSES (3)
PR: ECH 3023, ENV 4502. The theory and design of unit processes normally used in environmental engineering such as coagulation of colloidal materials, water stabilization, water softening and neutralization, ion exchange, adsorption and oxidation processes for removal of iron and magnesium.
ENV 4531 WASTEWATER SYSTEMS DESIGN (2)
PR: ENV 4503. Emphasis is placed upon design practice and economics for a comprehensive design of a wastewater system and a collection system.
ENV 4552L ENVIRONMENTAL UNIT OPERATIONS AND PROCESSES LABORATORY (1)
PR: EGN 3353, ENV 4004L. CR: ENV 4503. Experimental work of the theory and design practices learned in Unit Operations and Unit Processes lecture courses. It provides the student familiarity with the development of bench and pilot plant processes and operations used in environmental engineering.
ENV 4891 CAPSTONE WATER AND WASTEWATER DESIGN (3)
PR: EGN 3353 and ENV 4503. A capstone environmental design experience for seniors in Civil and Environmental Engineering. A design oriented course to design both industrial and domestic water treatment and water transport systems and wastewater and collection systems. The course emphasizes the design procedure normally used in engineering practice.
ENV 5105 AIR RESOURCE MANAGEMENT (3)
PR: CI. Air pollution source impacts on ambient air quality, modeling, regulatory approaches, source strategic controls and surveillance.
ENV 5345 SOLID AND HAZARDOUS WASTE CONTROL (3)
PR: CI. Treatment practices and design of waste handling systems to include: land treatment, pre-treatment, incineration, resource recovery, recycle, waste elimination.
ENV 5614 ENVIRONMENTAL RISK ANALYSIS (3)
PR: CI. Study of comprehensive application of risk analysis techniques for environmental control and protection purposes.
SUR 3140C ENGINEERING LAND SURVEYING (3)
Principles of land surveying for engineering practice. Traverses, levels, boundary surveys, route surveys, coordinate geometry, and mapping.
TTE 4004 TRANSPORTATION ENGINEERING I (3)
PR: EGN 3321. Principles of surface transportation system development, design, and operations; administration, modal characteristics, capacities, and functional classifications; vehicle kinematics, human factors and minimum design standards; traffic flow theory and queing, capacity and signalization; transportation planning and economics.
TTE 4005 TRANSPORTATION ENGINEERING II (3)
PR: TTE 4004. Techniques for the geometric route design of surface transportation systems; horizontal and vertical alignments. Spiral curves, superelevations and earthwork analysis; drainage, soils, and a rigid and flexible pavement design; right-of-way acquisition and Environmental Impacts; site layout & design, and operation of alternate models including bus, air, rail, water, and pipeline facilities and terminals.
TTE 4821 TRANSPORTATION SYSTEMS DESIGN (2)
PR: TTE 4005. Comprehensive surface transportation design laboratory experience involving function design, traffic and facility sizing, complete alignments, site surveying & layout plan and quantity preparation with computerized designed applications.
TTE 5501 TRANSPORTATION PLANNING AND ECONOMICS (3)
PR: College Algebra & CI. Fundamentals of urban transportation planning: trip generation, trip distribution, modal split, traffic assignment. Introduction to environmental impact analysis, evaluation and choice of transportation alernatives.
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Karen M. Hall - webCat@ugs.usf.edu
Effective Date: Semester I, 1998
http://www.ugs.usf.edu/catalogs/9899/cdces.htm