The graduate program in civil engineering is designed to provide the student with knowledge of advanced methods for analysis and design or for research and development. The student must select one of the following graduate specializations: Structures/Foundations, Water Resources Engineering, Transportation or Environmental Engineering. Full-time or part-time study may be pursued.
Faculty Research and Publications
Areas in which students may conduct thesis or project research are reflected by the research interests and publications of the faculty. These areas include concrete and steel structures, structural mechanics and dynamics, experimental and theoretical stress analysis, elasticity, constitutive modeling, composite materials, stress-wave propagation, ultrasonics, nondestructive evaluation, finite elements, fracture mechanics, soil mechanics, foundations, water resources, hydraulics, transportation and highway engineering, and construction materials.
Graduate teaching and research assistantships and graduate tuition grants are available to qualified students on a competitive basis. Applicants who are seeking an assistantship or tuition grant should so indicate on the Application for Graduate Admission.
Graduates of the MS in Civil Engineering program work as project engineers for consulting firms; perform research in government laboratories; conduct analysis, design, and research in industry; and manage public works facilities. Recent graduates are working as a structural designer, a ceramics researcher, and a stress analyst. Job prospects for those with advanced degrees in civil engineering are excellent.
Accelerated Program in Civil Engineering
The Department of Civil and Environmental Engineering also offers an Accelerated Program that would enable students to earn a Bachelor of Civil Engineering degree as well as a Master of Science in Civil Engineering in 5 years. Students are eligible to apply after they have completed sixty credit hours in their undergraduate program, with at least 30 credit hours earned at CSU. Once admitted to the combined program, the student may complete up to 12 credit hours of graduate courses while enrolled in the undergraduate program. These 12 credit-hours count towards both the undergraduate degree and the graduate degree requirements, either as electives or as requirements.
For more details, please refer to the department webpage http://www.csuohio.edu/engineering/civil/programs.html
Admission to the graduate program in civil engineering is open to qualified students with a baccalaureate degree in engineering or science. A minimum baccalaureate grade-point average of 2.75 typically is required. The applicant must have successfully completed those courses common to accredited undergraduate programs in engineering or engineering science, including the following: statics, dynamics, mechanics of materials, one year of physics, and mathematics up to and including ordinary differential equations. Additional course work may be required to satisfy deficiencies in the student’s undergraduate preparation.
The GRE General section is required if one or more of the following conditions is true:
•The undergraduate degree was awarded by a college or university outside of the United States, or by a Canadian institution not accredited by the Canadian Engineering Accreditation Board of the Canadian Council of Professional Engineers.
•An unaccredited college or university awarded the undergraduate degree.
•The student’s undergraduate cumulative grade-point average is below 2.75.
•The year of the baccalaureate degree precedes the date of application to the College of Graduate Studies by more than six years; however, in this case, the examination requirement may be waived, with program approval, if the applicant’s undergraduate grade-point average is 3.0 or above.
If the GRE is required, the admission decision is based on the applicant’s performance on the quantitative section of the GRE examination along with the undergraduate grade-point average. A minimum of the 50th percentile on the GRE quantitative is required, but this minimum score does not guarantee admission.
All non-native English speakers must demonstrate proof of English-language proficiency. Any individual who has earned a bachelor’s degree (or higher) from a U.S. institution, where the primary language of instruction is English, is not required to take an English-language proficiency examination. International students who want to be considered for teaching assistantships are advised to take the Test of Spoken English (TSE).
In addition to meeting other University requirements, a master’s candidate must fulfill the following:
1. Completion of at least 30 credits. For students pursuing the thesis option, a minimum of 24 credits of course work and a minimum of 6 credits of thesis are required. (A maximum of six credits of thesis may count toward the degree). For students pursuing the non-thesis option, all 30 credits must be earned in courses.
2. Students pursuing the thesis option must complete at least 15 credits of graduatelevel CVE course work. Students pursuing the non-thesis option must complete at least 21 credits of graduate-level CVE coursework.
3. A maximum of nine credits of course work may be taken outside of the department with advisor approval.
4. A maximum of six credit hours of course work may consist of approved 400-level courses taken outside of the department.
5. Course work may include a maximum of nine credits of graduate-level course work taken at other institutions.
6. A maximum of four credits of Special Topics may be used for the master's degree.
7. Each student must elect a specialization from among Environmental; Structures and Foundations; Water Resources; and Transportation. For each specialization, the student must plan a program of study in consultation with an advisor assigned by the Department of Civil and Environmental Engineering. After the student's program of study has been designed, any changes or substitutions require advisor approval. In planning the program of study, courses to satisfy the course work requirement (a minimum of 15 or 21 CVE/EVE credits for thesis and nonthesis students, respectively) should be selected to emphasize courses for the student's specialization.
Courses most suitable for students having elected the Structures and Foundations specialization are as follows:
- CVE 511 - Matrix Methods in Structural Analysis
- CVE 512 - Finite Element Analysis I
- CVE 528 - Structural Wood Design
- CVE 530 - Advanced Soil Mechanics
- CVE 531 - Advanced Foundations
- CVE 523 - Prestressed Concrete
Courses most suitable for students having selected the Water Resources specialization are as follows:
- CVE 561 - Hydrologic Analysis
- CVE 562 - Open Channel Hydraulics
- CVE 563 - Water Resources Engineering
- CVE 564 - Groundwater Hydrology
- CVE 565 - Hydrologic Modeling
- EVE 534 - Environmental Transport Phenomena
Courses most suitable for student having selected the Transportation specialization are as follows:
- CVE 504 - Civil Enginering Systems Analysis
- CVE 541 - Traffic Flow Theory
- CVE 542 - Urban Transportation Planning
- CVE 543 - Highway Safety
- CVE 546 - Transportation Engineering
- CVE 547 - Highway Engineering
Courses required for student having selected the Environmental specialization are as follows:
- EVE 534 - Environmental Transport Phenomena
- EVE 570 - Environmental Chemistry
- EVE 572 - Biological Principles of Environmental Engineering
- EVE 671 - Physical and Chemical Principles of Environmental Engineering
Thesis students must submit a thesis to their graduate committee, following the Thesis and Dissertation Format Guidelines, available on the College of Graduate Studies web page:http://www.csuohio.edu/gradcollege/students/thesis/
In order to graduate, each student’s thesis must be accepted by the graduate committee and pass an oral defense of the thesis.
Non-thesis students must complete course requirements.