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14:180:215
Engineering Graphics (1)
Principles of computer-aided design and drafting (CADD): graphic entities, hatch patterns, layering, part file creation, and information extraction. Two-dimensional drafting and pictorial drawings using a CADD system. Introduction to three-dimensional modeling and surface revolution.
Lab. 3 hrs. Not for civil engineering major.
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14:180:216
Introductory Computer-Aided Design and Drafting (3)
Principles of computer-aided design and drafting (CADD): graphic entities, hatch patterns, layering, part file creation, and information extraction. Two-dimensional drafting and pictorial drawings using a CADD system. Introduction to three-dimensional modeling and surface revolution. Descriptive geometry. CADD applications in civil engineering.
Lec. 1 hr., lab. 3 hrs., rec. 1 hr.
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14:180:243
Mechanics of Solids (3)
Axial force, shear, moment, and torque in structural members; stress, strain, and stress-strain relations; principal stresses and strains; torsion of circular shafts; bending of singly symmetric beams; compound loading; buckling of columns; statically indeterminate systems.
Prerequisites: (14:440:221 or 14:440:291) and (01:640:152 or 01:640:192 or 21:640:235 or 50:640:221). Corequisite: 01:640:244.
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14:180:305
Construction Engineering (3)
An introduction to construction and the construction industry. Topics include construction contracts, scheduling, estimating, and cost control.
Prerequisite: 14:180:243.
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14:180:318
Elements of Structures (3)
Structural analysis of statically determinate trusses, frames, cables, and arches. Computation of deflections in trusses and plane frames. Influence lines for beams and trusses. Introduction to indeterminate structures.
Prerequisites: 14:180:243, 14:440:222.
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14:180:320
Design of Steel Structures (3)
Design of bolted and welded connections; design of components of structural systems in tension, compression, bending, and combined axial and bending loads. Use of computers for design and detailing.
Lec. 2 hrs., rec. 1 hr. Prerequisites: 14:180:243, 318; 14:440:222.
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14:180:331
Elements of Environmental Engineering (3)
Engineering
management of the environment with particular emphasis on chemical
contaminants in water, wastewater, and air. Effects of
energy-related pollutants and industrial emissions on environmental
systems. Federal regulation and management of chemical contaminants.
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14:180:345
Properties of Materials Laboratory (1)
Mechanical properties and behavior of structural elements under a variety of load conditions.
Prerequisite: 14:180:243.
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14:180:364
Transportation Engineering I (3)
Principles of transportation engineering with application to various modes; planning, selection, formulation, and administration of transportation systems. Economic, environmental, and political constraints; land-use studies; applications.
Prerequisite: 14:180:243.
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14:180:372
Soil Mechanics (3)
Elements of engineering geology; mechanical and hydraulic properties of soils; soil-water systems and fluid flow; stresses in soils; compressibility, consolidation, and settlement; shearing resistance; lateral earth-pressures; slope stability; bearing capacity; numerical methods and computer applications.
Prerequisites: 14:180:243, 387.
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14:180:374
Soil Mechanics Laboratory (1)
Engineering classification of soils and rocks. Laboratory studies of physical properties and shear strength of soils such as Atterberg limits, compaction, permeability, unconfined compression, and direct shear tests.
Lab. 3 hrs. Corequisite: 14:180:372.
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14:180:382
Hydraulic and Environmental Engineering (3)
Basic concepts of viscous flows; conservation laws (mass, momentum, and energy); pipe flows and open-channel flows; water distribution systems; hydraulic modeling (stream and marine pollution); air, stream, and marine pollution problems. Computer applications.
Prerequisite: 14:180:387.
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14:180:387
Fluid Mechanics (3)
Fluid properties, statics and kinematics; concepts of system and control volume; mass, momentum, and energy conservation principles; laminar and turbulent flows in conduits and channels; boundary layer theory; drag and lift; ideal fluid flow.
Prerequisites: 14:440:222, 01:640:244.
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14:180:389
Fluid Mechanics Laboratory (1)
Experimental applications and demonstrations; measurement of fluid properties; applications of mass, energy, and momentum principles; energy losses; forces on immersed bodies; flow measurement devices.
Corequisite: 14:180:387.
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14:180:402
Finite Element Methods in Civil Engineering (3)
Finite element method of analysis for problems in structures and solid, fluid, and soil mechanics. Fundamentals of the finite element method. Variational formulation of boundary value problems, Galerkin approximations, matrix equations, finite element interpolation, error estimates, computer program algorithms and codes.
Prerequisites: 14:180:243, and 01:960:379 or equivalent.
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14:180:406
Construction Engineering Management (3)
Construction planning, scheduling, and control. Use of computer-based information systems for project management. Value engineering. Critical path method and PERT scheduling techniques. Computer-drawn scheduling networks. Schedule compression. Resource allocation leveling and optimization. Project organization and financial control. Decision-making.
Prerequisites:14:180:305, 01:960:379.
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14:180:407
Construction Projects (4)
Application of skills and theories of construction engineering management to actual projects. Students are assigned to a project and work with managers to budget, schedule, and control operations. Topics include utilization of heavy construction equipment, computer simulation of construction, and information technology in construction.
Prerequisites: 14:180:305, 406.
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14:180:411
Reinforced Concrete (3)
Strength theories for the analysis and design of beams, slabs, columns, and floor systems in flexure, diagonal tension, torsion, serviceability, and load factors, including computer applications.
Prerequisites: 14:180:318, 320.
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14:180:412
Behavior of Concrete Materials and Systems (3)
Material behavior under uniaxial, multiaxial, and time-dependent loading. Various methods of testing and computer aids for quality control. Analysis of structural members. Recent developments in cementitious composites.
Prerequisite: 14:180:411.
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14:180:413
Theory of Indeterminate Structures (3)
Force method for solving simple indeterminate structures. Classical methods of slope-deflection and moment distribution. Formulation and algorithms for matrix method. Application of computers for analyzing indeterminate trusses and frames.
Prerequisite: 14:180:318.
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14:180:417
Masonry and Wood Design (3)
Introduction to masonry and wood terminology and materials as well as ASTM-related specifications. ASD and LRFD design of structural elements such as masonry and wood beams, lintels, and columns. Reinforced and unreinforced masonry design. Masonry and wood shear wall design. Introduction to prestressed masonry. Connection design. Sustainability and energy efficiency, fire rating, and cost analysis.
Prerequisite: Open to senior civil engineering majors only.
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14:180:421
Reinforced Concrete Laboratory (1)
Experimental stress analysis of concrete structures, including test to failure of beams, plates, and prestressed elements; control testing and design of concrete mixtures.
Lab. 3 hrs. Corequisite: 14:180:411.
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14:180:426
Structural Design (4)
Design of steel or concrete structures; prestressed concrete design of beams and slabs. Design project with working drawings for a bridge or high-rise building. Economic and ethical considerations. Comprehensive report.
Lec. 3 hrs., lab. 3 hrs. Prerequisites: 14:180:318, 320, 411, 421.
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14:180:429
Water and Wastewater Engineering (3)
Design principles for water and wastewater engineering systems, water supply and distribution, wastewater collection and disposal, water treatment, and wastewater treatment.
Prerequisites: 14:180:387, 389.
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14:180:430
Introduction to Transportation Planning (3)
Discusses the various aspects of transportation demand forecasting problems. Introduces the classic four-step modeling process and the new activity-based modeling approach. Students will have the chance to use some of the state-of-the-art transportation planning software packages, such as Cube, VISUM, and TRANSCAD to conduct case studies of transportation planning problems during labs.
Prerequisites: 14:180:364 and (01:960:379 or 01:960:401).
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14:180:431
Design of Environmental Engineering Facilities (4)
Analysis and design considerations for environmental engineering facilities, such as water supply and wastewater treatment plants; physical engineering management of solid and hazardous wastes; resource recovery; economic and ethical considerations. Comprehensive report.
Prerequisites: 14:180:387, 389, 429.
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14:180:434
Land Development - Elements of Urban Infrastructure (3)
Introduction to urban infrastructure; introduction to civil design plans then a review of the function, alternatives, design, and construction of civil infrastructure elements such as grading, hydrology, storm water management, grading and earthwork, erosion and sediment control, storm and sanitary sewer systems, dry utilities, curb and flexible pavements, improvements to existing infrastructure.
Prerequisites: 14:180:372, 387.
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14:180:438
Transportation Engineering II (4)
Training in state-of-the-art transportation planning and operations software such as HCS, Synchro, VISSIM, and CUBE. Students will work in teams to conduct traffic studies at given sites/corridors. Traffic improvement alternatives will be used to address the identified transportation problems. Such alternatives to study may include redesigning geometric layout, signal optimization, adding traffic signs and control, and ITS (intelligent transportation) equipment and systems.
Lec. 3 hrs., lab. 3 hrs. Prerequisite: 14:180:364.
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14:180:443
Advanced Hydraulics (3)
Hydraulic engineering fundamentals: boundary layer, surface roughness, resistance in viscous flows; design of erodible and nonerodible canals; gradually varied flow, backwater analysis in rivers; computational methods; hydraulic jump; hydraulic applications in channel transitions and controls; flow over spillways; pollution problems in rivers and streams.
Prerequisite: 14:180:387.
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14:180:448
Elements of Hydrology (3)
Hydrologic cycle; weather and hydrology; precipitation; evaporation and transpiration; stream flow and subsurface hydrology; stream flow hydrographs; unit hydrograph theory; stream flow routing; computer simulation of hydrologic processes; probability concepts in hydrology; models for frequency distribution of floods; time series analysis.
Prerequisite: 14:180:387.
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14:180:471
Elements of Environmental Geotechnology (3)
Geotechnical aspects of analysis design and construction of waste containment systems.
Prerequisite: 14:180:372.
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14:180:473
Foundation Engineering (3)
Subsurface exploration; bearing capacity, settlement, and design of shallow foundations; design of rigid and flexible retaining structures; bearing capacity, settlement, and design of deep foundations.
Lec. 2 hrs., rec. 1 hr. Prerequisites: 14:180:372, 374.
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14:180:474
Geotechnical Engineering Design (4)
Subsurface investigation; construction dewatering; design concepts and procedures for shallow and deep foundations; application of numerical methods; safety and economy. Comprehensive report.
Prerequisites: 14:180:372, 374, 473.
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14:180:482
Professional Issues in Civil Engineering (1)
Principles of design of civil engineering projects from the viewpoint of the whole; interactions between individual parts (subsystems) and the effect of each on the overall system; overview of design process, quality of design, risk and liability, ethics, and economic considerations; report writing.
Prerequisite: Completion of all required courses through fall semester of senior year.
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14:180:491,492
Special Problems in Civil Engineering (BA,BA)
Individual investigation in a branch of civil engineering of particular interest to the student.
Prerequisite: Open only to seniors with departmental permission.
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14:180:493,494
Special Problems in Environmental Engineering (BA,BA)
Individual investigation in a branch of environmental engineering of particular interest to the student.
Prerequisite: Open only to seniors with departmental permission.
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14:180:496,497
Co-op Internship in Civil and Environmental Engineering (3,3)
Provides a capstone experience to the student's
undergraduate studies by integrating prior coursework into a working
civil and environmental engineering professional environment. Credits
earned for the educational benefits of the experience and granted only
for a continuous, six-month, full-time assignment.
Prerequisite: Permission of department. Graded pass/no credit.
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