Kaprielian Hall 210
(213) 740-0603
FAX: (213) 744-1426
E-mail: civileng@mizar.usc.edu

Chair: L. Carter Wellford, Ph.D.

Faculty Fred Champion Chair in Civil Engineering: Masanobu Shinozuka, Ph.D., P.E.

Professors: Ahmed Abdel-Ghaffar, Ph.D.; James C. Anderson, Ph.D.*; Jean-Pierre Bardet, Ph.D.; George V. Chilingar, Ph.D. (Petroleum Engineering); Joseph S. Devinny, Ph.D. (Environmental Engineering); Jiin-Jen Lee, Ph.D., P.E. (Environmental Engineering)*; Geoffrey R. Martin, Ph.D.; Sami F. Masri, Ph.D. (Mechanical Engineering); Massoud Pirbazari, Ph.D. (Environmental Engineering, Associate Director of Environmental Engineering); Costas Synolakis, Ph.D. (Aerospace Engineering); Mihailo Trifunac, Ph.D.; Firdaus E. Udwadia, Ph.D. (Mechanical Engineering); L. Carter Wellford, Ph.D. (Chair) (Director of Environmental Engineering); Hung Leung Wong, Ph.D.*; Teh Fu Yen, Ph.D. (Environmental Engineering)

Associate Professors: Ronald C. Henry, Ph.D. (Environmental Engineering); Vincent W. Lee, Ph.D.; Najmedin Meshkati, Ph.D., CPE (Industrial and Systems Engineering); James Moore, Ph.D. (Urban Planning and Development)

Assistant Professors: Constantinos Sioutas, Sc.D.; Yan Xiao, Ph.D., P.E.

Adjunct Professor: Gregg E. Brandow, Jr., Ph.D., P.E.

Research Associate Professor: Craig Taylor, Ph.D.

Research Assistant Professors: Robert Nigbor, Ph.D., P.E.; Maria I. Todorovska, Ph.D.

Senior Lecturer: Henry M. Koffman, P.E.

Emeritus Professors: Mihran S. Agbabian, Ph.D., P.E.; Edwin L. Bidwell, Ph.D.; Donald E. Hudson, Ph.D.; Kenneth C. Reynolds, Sc.D.; Paul Seide, Ph.D.; Victor I. Weingarten, Ph.D.

*Recipient of university-wide or school teaching award.

Chi Epsilon Civil Engineering Honor Society

Chi Epsilon is dedicated to the purpose of maintaining and promoting the status of civil engineering as a profession. Chi Epsilon was organized to recognize the characteristics of the individual civil engineer deemed to be fundamental to the successful pursuit of an engineering career and to aid in the development of those characteristics in the civil engineering student. To contribute to the improvement of the profession, Chi Epsilon fosters the development and exercise of sound traits of character and technical ability among civil engineers.

Chi Epsilon is based on broad principles of scholarship, character, practicality and sociability. Civil engineering students who rank in the upper one-third of the junior or senior class are eligible for membership. These qualifications will make one eligible but not necessarily acceptable. Each member must be well skilled in all four of the basic principles.

Degree Requirements

Bachelor of Science in Civil Engineering (131 Unit Program)

A cumulative grade point average of C (2.0) is required for all courses taken at USC as well as for all courses taken within the Department of Civil Engineering. In addition, a minimum grade of C must be earned in each of the following courses: CE 205, 225, 309 and 325. See also common requirements for undergraduate degrees section.

First Year, First Semester		Units
CE 106	Design and Planning of Civil Engineering Systems	2
CHEM 105aL	General Chemistry, or
CHEM 115aL	Advanced General Chemistry	4
MATH 125	Calculus I	4
WRIT 140*	Writing and Critical Reasoning	4
General education*	Social Issues	4
		____
		18

First Year, Second Semester		Units
CE 107	Introduction to Civil Engineering Graphics	3
CE 108	Introduction to Computational Methods in Civil Engineering	2
MATH 126	Calculus II	4
PHYS 151L**	Fundamentals of Physics I: Mechanics and Thermodynamics	4
		____
		13

Second Year, First Semester		Units
CE 205	Statics	2
MATH 226	Calculus III	4
PHYS 152L	Fundamentals of Physics II: Electricity and Magnetism	4
General education		8
		____
		18

Second Year, Second Semester		Units
CE 225	Mechanics of Deformable Bodies	3
MATH 245	Mathematics of Physics and Engineering I	4
ME 310	Engineering Thermodynamics I	3
CHEM 105bL	General Chemistry, or
CHEM 115bL	Advanced General Chemistry, or
GEOL 305	Introduction to Engineering Geology, or
PHYS 153L	Fundamentals of Physics III: Optics and Modern Physics	4
General education		4
		____
		18

Third Year, First Semester		Units
CE 309	Fluid Mechanics	3
CE 325	Dynamics	3
CE 358	Theory of Structures I	3
CE 471	Principles of Transportation Engineering	3
EE 202L	Linear Circuits, or
EE 326L	Essentials of Electrical Engineering	4
		____
		16

Third Year, Second Semester		Units
CE 334L	Mechanical Behavior of Materials	3
CE 402	Computer Methods in Engineering	3
ISE 460	Engineering Economy	3
Kernel course***		3
Elective	civil engineering	3
		____
		15

Fourth Year, First Semester		Units
CE 408	Risk Analysis in Civil Engineering	3
CE 453	Water Quality Control	3
CE 467	Geotechnical Engineering	4
Kernel course***		3
Elective	civil engineering	3
		____
		16

Fourth Year, Second Semester		Units
CE 451	Water Resources Engineering	4
CE 480	Structural Systems Design	3
Kernel course***		3
WRIT 340	Advanced Writing	3
General education		4
		____
		17

*Taken concurrently.

**Satisfies a general education requirement for Category III.

***Kernels must be selected from the following list of design courses: CE 409abL, CE 429, CE 456, CE 457, CE 465, CE 476 or CE 478.

The Department of Civil Engineering must approve all curricula leading to a degree; please note this includes transfer credit and units for courses waived for subject credit only, which have been approved through the Degree Progress Department.

Bachelor of Science in Civil Engineering (with Construction Engineering Emphasis)

A cumulative grade point average of C (2.0) is required for all courses taken at USC as well as for all courses taken within the Department of Civil Engineering. In addition, a minimum grade of C must be earned in each of the following courses: CE 205, 225, 309 and 325. See also common requirements for undergraduate degrees section.

First Year, First Semester		Units
CE 106	Design and Planning of Civil Engineering Systems	2
CHEM 105aL	General Chemistry, or
CHEM 115aL	Advanced General Chemistry	4
MATH 125	Calculus I	4
WRIT 140*	Writing and Critical Reasoning	4
General education*	Social Issues	4
		____
		18

First Year, Second Semester		Units
CE 107	Introduction to Civil Engineering Graphics	3
CE 108	Introduction to Computational Methods in Civil Engineering	2
MATH 126	Calculus II	4
PHYS 151L**	Fundamentals of Physics I: Mechanics and Thermodynamics	4
		____
		13

Second Year, First Semester		Units
CE 205	Statics	2
CE 460	Construction Engineering	3
MATH 226	Calculus III	4
PHYS 152L	Fundamentals of Physics II: Electricity and Magnetism	4
General education		4
		____
		17

Second Year, Second Semester		Units
CE 225	Mechanics of Deformable Bodies	3
MATH 245	Mathematics of Physics and Engineering I	4
ME 310	Engineering Thermodynamics I	3
GEOL 305	Introduction to Engineering Geology	4
General education		4
		____
		18

Third Year, First Semester		Units
CE 309	Fluid Mechanics	3
CE 325	Dynamics	3
CE 358	Theory of Structures I	3
CE 471	Principles of Transportation Engineering	3
EE 202L	Linear Circuits, or
EE 326L	Essentials of Electrical Engineering	4
		____
		16

Third Year, Second Semester		Units
CE 334L	Mechanical Behavior of Materials	3
CE 462	Construction Methods and Equipment	3
ISE 460	Engineering Economy	3
Kernel course***		3
General education		4
		____
		16

Fourth Year, First Semester		Units
CE 408	Risk Analysis in Civil Engineering	3
CE 409aL	Computer Aided Design	3
CE 412	Contracts and Specifications	3
CE 461	General Construction Estimating	3
CE 467	Geotechnical Engineering	4
		____
		16

Fourth Year, Second Semester		Units
CE 451	Water Resources Engineering	4
CE 480	Structural Systems Design	3
Kernel course***		3
WRIT 340	Advanced Writing	3
General education		4
		____
		17

*Taken concurrently.

**Satisfies a general education requirement for Category III.

***Kernels must be selected from the following list of design courses: CE 456, CE 457, CE 465, CE 466, CE 476, CE 478. Students must select one course from CE 456, CE 457, CE 478.

The Department of Civil Engineering must approve all curricula leading to a degree; please note this includes transfer credit and units for courses waived for subject credit only, which have been approved through the Degree Progress Department.

Bachelor of Science in Civil Engineering (with Structural Engineering Emphasis)

A cumulative grade point average of C (2.0) is required for all courses taken at USC as well as for all courses taken within the Department of Civil Engineering. In addition, a minimum grade of C must be earned in each of the following courses: CE 205, 225, 309 and 325. See also common requirements for undergraduate degrees section.

First Year, First Semester		Units
CE 106	Design and Planning of Civil Engineering Systems	2
CHEM 105aL	General Chemistry, or
CHEM 115aL	Advanced General Chemistry	4
MATH 125	Calculus I	4
WRIT 140*	Writing and Critical Reasoning	4
General education*	Social Issues	4
		____
		18

First Year, Second Semester		Units
CE 107	Introduction to Civil Engineering Graphics	3
CE 108	Introduction to Computational Methods in Civil Engineering	2
MATH 126	Calculus II	4
PHYS 151L**	Fundamentals of Physics I: Mechanics and Thermodynamics	4
		____
		13

Second Year, First Semester		Units
CE 205	Statics	2
MATH 226	Calculus III	4
PHYS 152L	Fundamentals of Physics II: Electricity and Magnetism	4
General education		8
		____
		18

Second Year, Second Semester		Units
CE 225	Mechanics of Deformable Bodies	3
MATH 245	Mathematics of Physics and Engineering I	4
ME 310	Engineering Thermodynamics I	3
GEOL 305	Introduction to Engineering Geology	4
General education		4
		____
		18

Third Year, First Semester		Units
CE 309	Fluid Mechanics	3
CE 325	Dynamics	3
CE 358	Theory of Structures I	3
CE 456	Design of Steel Structures	3
EE 202L	Linear Circuits, or
EE 326L	Essentials of Electrical Engineering	4
		____
		16

Third Year, Second Semester		Units
CE 334L	Mechanical Behavior of Materials	3
CE 402	Computer Methods in Engineering	3
CE 457	Reinforced Concrete Design	3
CE 458	Theory of Structures II	3
ISE 460	Engineering Economy	3
		____
		15

Fourth Year, First Semester		Units
CE 408	Risk Analysis in Civil Engineering	3
CE 409aL	Computer Aided Design	3
CE 460	Construction Engineering	3
CE 467L	Geotechnical Engineering	4
CE 478	Timber and Masonry Design	3
		____
		16

Fourth Year, Second Semester		Units
CE 451	Water Resources Engineering	4
CE 480	Structural Systems Design	3
CE 459	Introduction to Structural Dynamics	3
WRIT 340	Advanced Writing	3
General education		4
		____
		17

*Taken concurrently.

**Satisfies a general education requirement for Category III.

The Department of Civil Engineering must approve all curricula leading to a degree; please note this includes transfer credit and units for courses waived for subject credit only, which have been approved through the Degree Progress Department.

Bachelor of Science in Civil Engineering (with Water Resources Engineering Emphasis)

A cumulative grade point average of C (2.0) is required for all courses taken at USC as well as for all courses taken within the Department of Civil Engineering. In addition, a minimum grade of C must be earned in each of the following courses: CE 205, 225, 309 and 325. See also common requirements for undergraduate degrees section.

First Year, First Semester		Units
CE 106	Design and Planning of Civil Engineering Systems	2
CHEM 105aL	General Chemistry, or
CHEM 115aL	Advanced General Chemistry	4
MATH 125	Calculus I	4
General education*	Social Issues	4
WRIT 140*	Writing and Critical Reasoning	4
		____
		18

First Year, Second Semester		Units
CE 107	Introduction to Civil Engineering Graphics	3
CE 108	Introduction to Computational Methods in Civil Engineering	2
MATH 126	Calculus II	4
PHYS 151L**	Fundamentals of Physics I: Mechanics and Thermodynamics	4
		____
		13

Second Year, First Semester		Units
CE 205	Statics	2
MATH 226	Calculus III	4
PHYS 152L	Fundamentals of Physics II: Electricity and Magnetism	4
General education		8
		____
		18

Second Year, Second Semester		Units
CE 225	Mechanics of Deformable Bodies	3
MATH 245	Mathematics of Physics and Engineering I	4
ME 310	Engineering Thermodynamics I	3
CHEM 105bL	General Chemistry, or
CHEM 115bL	Advanced General Chemistry, or
GEOL 305	Introduction to Engineering Geology, or
PHYS 153L	Fundamentals of Physics III: Optics and Modern Physics	4
General education		4
		____
		18

Third Year, First Semester		Units
CE 309	Fluid Mechanics	3
CE 325	Dynamics	3
CE 358	Theory of Structures I	3
CE 471	Principles of Transportation Engineering	3
EE 202L	Linear Circuits, or
EE 326L	Essentials of Electrical Engineering	4
		____
		16

Third Year, Second Semester		Units
CE 334L	Mechanical Behavior of Materials	3
CE 402	Computer Methods in Engineering	3
ISE 460	Engineering Economy	3
Kernel course***		3
Elective	civil engineering	3
		____
		15

Fourth Year, First Semester		Units
CE 408	Risk Analysis in Civil Engineering	3
CE 453	Water Quality Control	3
CE 467	Geotechnical Engineering	4
Kernel course***		3
Elective	civil engineering	3
		____
		16

Fourth Year, Second Semester		Units
CE 451	Water Resources Engineering	4
CE 485	Wastewater Treatment Design	3
Kernel course***		3
WRIT 340	Advanced Writing	3
General education		4
		____
		17

*Taken concurrently.

**Satisfies a general education requirement for Category III.

***Kernels must be selected from the following list of design courses: CE 465, CE 466 or CE 476.

The Department of Civil Engineering must approve all curricula leading to a degree; please note this includes transfer credit and units for courses waived for subject credit only, which have been approved through the Degree Progress Department.

Bachelor of Science in Civil Engineering (Building Science) (135 Unit Program)

A cumulative grade point average of C (2.0) is required in all courses taken at USC, as well as for all courses taken within the Department of Civil Engineering. In addition, a minimum grade of C must be earned in each of the following courses: CE 205, 225, 309 and 325. See also the common requirements for undergraduate degrees section.

First Year, First Semester		Units
CE 106	Design and Planning of Civil Engineering Systems	2
CHEM 105aL	General Chemistry, or
CHEM 115aL	Advanced General Chemistry	4
MATH 125	Calculus I	4
WRIT 140*	Writing and Critical Reasoning	4
General education*	Social Issues	4
		____
		18

First Year, Second Semester		Units
ARCH 114	Introduction to Modern Architecture	2
CE 107	Introduction to Civil Engineering Graphics	3
CE 108	Introduction to Computer Methods in Civil Engineering	2
MATH 126	Calculus II	4
PHYS 151L****	Fundamentals of Physics I: Mechanics and Thermodynamics	4
		____
		15

Second Year, First Semester		Units
ARCH 205aL**	Building Science I	4
CE 205	Statics	2
MATH 226	Calculus III	4
PHYS 152L	Fundamentals of Physics II: Electricity and Magnetism	4
General education		4
		____
		18

Second Year, Second Semester		Units
ARCH 205bL**	Building Science I	4
CE 225	Mechanics of Deformable Bodies	3
GEOL 305	Introduction to Engineering Geology, or
PHYS 153L	Fundamentals of Physics III: Optics and Modern Physics	4
MATH 245	Mathematics of Physics and Engineering I	4
ME 310	Engineering Thermodynamics I	3
		____
		18

Third Year, First Semester		Units
ARCH 305aL**	Building Science II	4
CE 309	Fluid Mechanics	3
CE 325	Dynamics	3
CE 358	Theory of Structures I	3
CE 456	Design of Steel Structures	3
		____
		16

Third Year, Second Semester		Units
ARCH 214b	History and Theory II	4
ARCH 305bL**	Building Science II	4
CE 334L	Mechanical Behavior of Materials	3
CE 457	Reinforced Concrete Design	3
General education		4
		____
		18

Fourth Year, First Semester		Units
ARCH 405aL**	Building Science III	4
CE 408	Risk Analysis in Civil Engineering	3
CE 467	Geotechnical Engineering	4
Civil Engineering elective***		3
General education		4
		____
		18

Fourth Year, Second Semester		Units
ARCH 405bL**	Building Science III	4
CE 458	Theory of Structures II	3
WRIT 340	Advanced Writing	3
General education		4
		____
		14

*Taken concurrently.

**The School of Architecture requires a minimum grade of C in ARCH 205ab, 305ab and 405ab in order to continue in the building science design sequence.

***The Civil Engineering elective must be selected from the following courses: CE 409a, CE 451, CE 453, CE 460, and CE 471.

****Satisfies general education category III.

Bachelor of Science in Civil Engineering (Environmental Engineering) (130 Unit Program)

A cumulative grade point average of C (2.0) is required for all courses taken at USC as well as for all courses taken within the Department of Civil Engineering. In addition, a minimum grade of C must be earned in each of the following courses: CE 205, 225, 309 and 325. See also common requirements for undergraduate degrees section.

First Year, First Semester		Units
CE 110	Introduction to Environmental Engineering	4
MATH 125	Calculus I	4
General education*	Social Issues	4
WRIT 140*	Writing and Critical Reasoning	4
		____
		16

First Year, Second Semester		Units
CE 108	Introduction to Computer Methods in Civil Engineering	2
CE 210L	Introduction to Environmental Engineering Microbiology	3
CHEM 105aL	General Chemistry, or
CHEM 115aL	Advanced General Chemistry	4
MATH 126	Calculus II	4
PHYS 151L**	Fundamentals of Physics I: Mechanics and Thermodynamics	4
		____
		17

Second Year, First Semester		Units
CE 205	Statics	2
CHEM 105bL	General Chemistry, or
CHEM 115bL	Advanced General Chemistry	4
MATH 226	Calculus III	4
PHYS 152L	Fundamentals of Physics II: Electricity and Magnetism	4
General education		4
		____
		18

Second Year, Second Semester		Units
CE 225	Mechanics of Deformable Bodies	3
ENE 400	Environmental Engineering Principles	3
MATH 245	Mathematics of Physics and Engineering I	4
ME 310	Engineering Thermodynamics	3
PHYS 153L	Fundamentals of Physics III: Optics and Modern Physics, or
GEOL 305	Introduction to Engineering Geology	4
		____
		17

Third Year, First Semester		Units
CE 309	Fluid Mechanics	3
CE 325	Dynamics	3
CE 358	Theory of Structures I	3
WRIT 340	Advanced Writing	3
General education		4
		____
		16

Third Year, Second Semester		Units
CE 334L	Mechanical Behavior of Materials	3
CE 451	Water Resources Engineering	4
CE 453	Water Quality Control	3
ISE 460	Engineering Economy	3
Kernel course***		3
		____
		16

Fourth Year, First Semester		Units
CE 408	Risk Analysis in Civil Engineering	3
CE 467	Geotechnical Engineering	4
Kernel course***		3
General education		4
		____
		14

Fourth Year, Second Semester		Units
CE 463L	Water Chemistry and Analysis	3
CE 485	Wastewater Treatment Design	3
ENE 428L	Air Pollution Fundamentals	3
General education		4
Kernel course***		3
		____
		16

*Taken concurrently.

**Satisfies a general education requirement for Category III.

***Kernels must be selected from the following design courses: CE 409aL, CE 443, CE 457, CE 465, CE 466, CE 476, CE 484 and ENE 429.

Bachelor of Science in Environmental Engineering (132 Unit Program)

A cumulative scholarship average of C (2.0) is required for all courses taken at USC as well as for all courses taken in the Civil Engineering Department. In addition, a minimum grade of C must be earned in each of the following courses: CE 205, 225 and ENE 410. See also common requirements undergraduate degrees section.

First Year, First Semester		Units
CE 110	Introduction to Environmental Engineering	4
MATH 125	Calculus I	4
General education*	Social Issues	4
WRIT 140*	Writing and Critical Reasoning	4
		____
		16

First Year, Second Semester		Units
CE 108	Introduction to Computer Methods in Civil Engineering	2
CE 210L	Introduction to Environmental Engineering Microbiology	3
CHEM 105aL	General Chemistry, or
CHEM 115aL	Advanced General Chemistry	4
MATH 126	Calculus II	4
PHYS 151L**	Fundamentals of Physics I: Mechanics and Thermodynamics	4
		____
		17

Second Year, First Semester		Units
BISC 110L	Introduction to Biology I	4
CE 205	Statics 2
CHEM 105bL	General Chemistry, or
CHEM 115bL	Advanced General Chemistry	4
MATH 226	Calculus III	4
PHYS 152L	Fundamentals of Physics II: Electricity and Magnetism	4
		____
		18

Second Year, Second Semester		Units
ENE 400	Environmental Engineering Principles	3
ENE 410	Environmental Fluid Mechanics	3
MATH 245	Mathematics of Physics and Engineering	4
General education		4
		____
		14

Third Year, First Semester		Units
CE 453	Water Quality Control	3
CHEM 322aL	Organic Chemistry	4
ENE 428L	Air Pollution Fundamentals	3
WRIT 340	Advanced Writing	3
General education		4
		____
		17

Third Year, Second Semester		Units
CE 408	Risk Analysis in Civil Engineering	3
CE 451	Water Resources Engineering	4
GEOL 305Lx	Introduction to Engineering Geology	4
Kernel course***		3
General education		4
		____
		18

Fourth Year, First Semester		Units
CE 484	Water Treatment Design	3
CHE 330	Chemical Engineering Thermodynamics	4
ISE 460	Engineering Economy	3
PTE 463L	Introduction to Transport Processes in Porous Media	3
Kernel course***		3
		____
		16

Fourth Year, Second Semester		Units
CE 463L	Water Chemistry and Analysis	3
CE 485	Wastewater Treatment Design	3
ENE 429	Air Pollution Control	3
Kernel course***		3
General education		4
		____
		16

*Taken concurrently.

**Satisfies a general education requirement for Category III.

***The three Kernels must be selected from the following list of courses: CE 402, CE 409aL, CE 443, CE 465 and CHE 442.

Minor in Environmental Engineering

See listing in the Environmental Engineering section.

Minor in Construction Planning and Management

This program covers the most current theories and practice of construction planning and management. The program provides a valuable adjunct credential to professional school students pursuing careers in business administration, public administration, environmental studies, and other areas; and a unique opportunity for professional focus to students in the College of Letters, Arts and Sciences.

Construction activities are complex. In contemporary society, effective planning and management of these activities requires specialized knowledge of the technical, economic and policy environment. This program couples the knowledge of how construction activities are organized with a broader understanding of the urban system in which construction projects are embedded. With the exception of statistics, all of the required courses are within the Department of Civil Engineering and the School of Urban Planning and Development.

Any USC undergraduate who has completed the equivalent of two full-time semesters in good standing is eligible to pursue the minor program. This minor program is rigorous enough to serve as an introductory credential for students subsequently electing to pursue advanced studies in development, urban planning, construction management or allied fields.

Courses required

Seven courses consisting of at least 23 units are required for the minor.

Statistics

Students must complete an advisor approved course in statistics. Candidate courses include ECON 317, EE 364, ISE 220, PLDV 404, PPMT 404, PSYCH 274, SOCI 314 and similar courses. The statistics course must be at least three units.

Core Courses		Units
CE 460	Construction Engineering	3
CE 461	General Construction Estimating	3
CE 462	Construction Methods and Equipment	3
PLDV 361	Property, Governance and the Environment	4
PLDV 402	Urban Economic Analysis Planning	4
		____
		17

Electives (select one)		Units
CE 404	Fundamentals of Law for Engineers	3
CE 412	Contracts and Specifications	3
CE 472	Construction Labor Management	3
PLDV 403	Advanced Finance and Investment for Planning and Development	4

Advisement is provided by the Department of Civil Engineering. Students will normally complete statistics before enrolling in CE 461 but can be permitted to complete statistics as a corequisite subject to advisor approval. CE 460 is a prerequisite for CE 461 for the purposes of the minor. Students are also advised to take CE 460 before taking CE 462.

Students electing PLDV 403 must have completed PLDV 402.

Master of Science in Civil Engineering

The Master of Science in Civil Engineering is awarded in strict conformity with the general requirements of the School of Engineering. A student may receive the Master of Science in Civil Engineering with a special option by specializing in one of the following courses of study: construction; earthquake engineering; nuclear engineering; ocean engineering; soil mechanics and foundations; structural engineering; structural mechanics; environmental engineering; transportation engineering; and water resources. Students specializing in the transportation option must include in their program either four units of CE 590 or 594ab.

A general Master of Science in Civil Engineering without special designation is also given. Specific course requirements (at least 15 units) for a degree with special designation may be secured by request from the Department of Civil Engineering. A student who wishes to pursue the Master of Science in Civil Engineering but who has an interest in public administration may take a selected sequence of 12 units in the School of Public Administration. Graduate civil engineers may earn the Master of Science degree in the School of Public Administration. The Bachelor of Science in Civil Engineering will meet all the prerequisites for graduate work in the School of Public Administration except for accounting and statistics.

Master of Science in Applied Mechanics

Students possessing a bachelor's degree in aerospace engineering, civil engineering, mechanical engineering, mathematics, or physics may work toward the Master of Science in Applied Mechanics. A student may be required to satisfy certain deficiencies considered prerequisite to the listed courses.

The Master of Science in Applied Mechanics is awarded in strict conformity with the general requirements for the Master of Science in Civil Engineering, except as modified by the following specific requirements.

Students must include in their course work: (1) CE 507, 508, 525ab, 541b and AE 510ab; (2) at least six units of electives from the following: CE 541a, 542, 543; (3) other electives may be substituted on approval of department chair; (4) there is no thesis option.

Master of Science in Environmental Engineering

Students with a bachelor's degree in engineering or science may work toward the Master of Science in Environmental Engineering. Students with degrees in fields other than engineering or science may be admitted on the recommendation of a program advisor and program director. Selection of courses will be determined through consultation with a program advisor to provide a maximum of training in the student's area of interest in environmental problems.

Master of Construction Management

Students possessing a bachelor's degree and with sufficient training in capital management and statistics may pursue the Master of Construction Management. This is an interdisciplinary degree program offered jointly by the Department of Civil Engineering and the School of Urban Planning and Development. A single application is made to the Department of Civil Engineering. The purpose of the Master of Construction Management program is to educate and train multidisciplinary professionals to understand and execute the broad array of technical and non-technical activities associated with construction management. The program provides special attention to the function of the constructor in real estate development. The core of the program is drawn from the MSCE program in construction engineering and management, and from the School of Urban Planning and Development's Master of Real Estate Development program. Additional elective courses are available in both units, in the Department of Industrial and Systems Engineering, the School of Architecture, and the Marshall School of Business. In addition, students may seek advisor approval for electives from other units in the university, such as the School of Public Administration, the Law School or the School of Gerontology.

Core Curriculum		Units
CE 501	Functions of the Constructor	3
CE 556ab	Project Cost Estimating and Control	3-3
CE 502	Construction Accounting and Finance, or
GSBA 510	Accounting Concepts and Financial Reporting, or
ACCT 538	Tax and Accounting Issues in Real Estate	3
RED 542	Finance of Real Estate Development	4
RED 509	Market Analysis for Real Estate Development	4
ARCH 511L	Seminar: Building Systems	4
Additional advisor approved technical and advanced electives		9
Total minimum units		33

The minimum requirement for the Master of Construction Management degree is 33 units. At least three elective courses totaling at least 9 units are required for this degree. These may be taken from the Department of Civil Engineering, other engineering departments, the School of Urban Planning and Development, the School of Architecture, the School of Public Administration, the Leonard Davis School of Gerontology, the Law School or the Marshall School of Business subject to advisor approval. Admission to some classes requires advanced prerequisites and is subject to availability and approval of the instructor.

General Requirements
Residence and Course Load

The normal time required for earning the Master of Construction Management is three semesters, including one summer semester beginning in July and continuing through the spring semester ending in May. Students are expected to participate in extracurricular activities associated with the Master of Construction Management program, including the speaker series and field trips. A candidate must complete the last four semester units of course work at USC.

Students who wish a leave of absence for a semester or longer must request it from the chairman of the Civil Engineering Department in writing. Such leaves may be granted for up to one year.

For further information see the School of Urban Planning and Development section.

Master of Engineering in Computer-Aided Engineering

The Master of Engineering program educates and trains multidisciplinary professionals in the use of computational techniques in the planning, design and management of engineering projects. The emphasized computer-aided engineering subjects are modeling, simulation, visualization, optimization, artificial intelligence and advanced design, documentation, manufacturing and information management. The program provides the graduate with advanced education in a particular engineering subject area, associated with aerospace, civil or mechanical engineering. This advanced engineering education is coupled with an intensive concentration in computational procedures appropriate for that subject area. The program also includes substantial project work to provide a background in the application of CAE techniques in real world situations.

For further information see the listing under Computer-Aided Engineering.

Engineer in Civil Engineering

Requirements for the Engineer in Civil Engineering are the same as set forth in the general requirements.

Doctor of Philosophy in Civil Engineering and Doctor of Philosophy in Engineering (Environmental Engineering)

The Doctor of Philosophy with a major in civil engineering and the Doctor of Philosophy with a major in engineering (environmental engineering) are also offered. See general requirements for graduate degrees.

Areas of specialization for Doctor of Philosophy level students are: structural engineering, structural mechanics, earthquake engineering, coastal engineering, water resources engineering, soil mechanics and foundation engineering, hydrology, hydrodynamics and transportation.

Graduate Certificate in Transportation Systems

The graduate certificate in Transportation Systems is an interdisciplinary program administered by the Department of Civil Engineering. The certificate program allows students to specialize in transportation applications, while simultaneously receiving a degree in their home department. The certificate in Transportation Systems combines elements of transportation engineering with transportation policy, planning and project management. The program is especially appropriate for students intending to pursue careers as developers of transportation technologies, or as implementors of technologies within government agencies.

Students electing the certificate program apply to the Department of Civil Engineering. Course prerequisites for the program are:
(1) one course in statistics or uncertainty, equivalent to ISE 225, PLDV 404 or CE 408;
(2) one course in engineering economy, equivalent to ISE 460;
(3) one course in microeconomics, equivalent to ECON 203; and
(4) one course in a high level programming language, such as C or Fortran.

These prerequisites may be satisfied after enrollment in the certificate program by taking the indicated courses or their equivalent. Graduate students cannot receive credit for courses numbered below 400. Detailed admissions requirements are published by the Department of Civil Engineering.

Qualified students holding a bachelor's degree also have the option of enrolling in the certificate program without receiving a separate graduate degree.

The curriculum consists of five graduate courses for a total of 17 units.

Certificate Requirements		Units
CE 519	Transportation Engineering	3
CE 585	Traffic Engineering and Control	3
ISE 515	Institutional and Policy Issues in Transportation	3
PLUS 580	Urban Transportation Planning and Management	4
PLUS 581	Institutional and Policy Issues in Transportation	4