Description
The efforts of civil engineers make the world a better place for others through the planning, design, construction, and maintenance of various resources, including buildings, bridges, dams, canals, highways, airports, railroads, water supply systems, waste treatment plants, etc. Civil Engineering is the instrument for channeling scientific and technical skills into civil construction works which safeguard our environment and protect us from natural disasters. Because any type of construction deals with changing or adding to our planet, civil engineering directly deals with environmental issues.
The civil and environmental engineering curriculum provides students with: 1) a global vision and approach to problem identification, formulation and solving in areas such as infrastructure, environment and facilities; 2) a management knowledge base in areas such as ethics, communication skills, team concepts and value judgment; and 3) a three-term real world engineering work experience through the co-operative education program. As a part of the curriculum, students are exposed to all areas of Civil and Environmental Engineering, including structures, transportation, geotechnical, hydrology and water/waste water.
The mission of the Program is to provide a broad-based education and design experience that enables students to address complex and multi-faceted Civil and Environmental Engineering problems. The Program also seeks to provide students the fundamental tools to enable them to evolve in the profession in response to changing technology and societal needs and expectations.
Program Educational Objectives
1. Graduates of this program should work as practicing engineers/professionals, and take necessary steps to become licensed professional engineers.
2. Graduates of this program should be able to create practical engineering designs/solutions that are sensitive to economics, social context, community needs, and address environmental, public safety and sustainability concerns.
3. Graduates of this program should actively participate and seek leadership positions in professional societies, other worthy organizations and their workplaces.
In addition to the Engineering core curriculum, all civil and environmental engineering students must satisfactorily complete the following courses: |
| | | cr. | rec./lec. | lab. |
CE 342 | Structural Theory | | 4 | 4 | 0 |
CE 345 | Construction Materials | | 3 | 2 | 3 |
CE 348 | Soil Mechanics | | 3 | 3 | 0 |
CE 349 | Soil Mechanics Lab | | 1 | 0 | 3 |
CE 352 | Transportation Engineering | | 3 | 3 | 0 |
CE 450 | Water and Waste Water Eng. | | 3 | 3 | 0 |
CE 451 | Water & Waste Water Eng. Lab | | 1 | 0 | 3 |
CE 453 | Applied Hydraulics & Hydrology | | 3 | 3 | 0 |
CE 468 | Design of Steel and Concrete Structures | | 4 | 4 | 0 |
CE 482 | Senior Engineering Design Project | | 3 | 3 | 0 |
E 313 | Dynamics | | 3 | 3 | 0 |
E 324 | Engineering Economy | | 3 | 3 | 0 |
E 326 | Mechanics of Materials I | | 3 | 3 | 0 |
E 327 | Mechanics of Materials I Lab | | 1 | 0 | 3 |
Total: 41 Credits
Concentrations - flexibility and focus
After exposure to various areas of Civil and Environmental Engineering, students are provided the flexibility to focus their learning on areas of personal interest and areas of great need in society through concentration areas. In cooperation with a faculty advisor, students can devise course concentrations that focus on structural engineering (buildings, bridges), geotechnical engineering (dams, road and building foundations ) or environmental engineering (environmental impact and remediation, water and waste water).
Each student must take a total of nine credit hours in design and engineering science electives beyond the departmental core. Two courses must be design electives (*), and one must be an engineering science elective (**). For a specific concentration, students are required to take selected design electives and engineering science electives. Engineering science electives beyond those mentioned below may be selected with the approval of the department chair.
Structural: |
| | | cr. | rec./lec. | lab. |
CE 340 | Engineering Survey/GIS** | | 4 | | |
CE 440 | Structural Dynamics** | | 3 | | |
CE 466 | Bridge Design* | | 3 | | |
CE 474 | Advanced Steel Design* | | 3 | | |
CE 476 | Advanced Concrete Design* | | 3 | | |
E 442 | Finite Element Methods** | | 3 | | |
Geotechnical: |
| | | cr. | rec./lec. | lab. |
CE 340 | Engineering Survey/GIS** | | 4 | | |
CE 478 | Foundation Engineering* | | 3 | | |
CE 480 | Design of Earth Retention* | | 3 | | |
Environmental: |
| | | cr. | rec./lec. | lab. |
CE 340 | Engineering Survey/GIS** | | 4 | | |
CE 484 | Environmental Chemistry & Design* | | 3 | | |
CE 468 | Environmental Microbiology & Design* | | 3 | | |
CE 483 | Hazardous Waste | | 3 | | |
CE 488 | Solid Waste | | 3 | | |
CE 490 | Municipal Design* | | 3 | | |
* Design electives ** Engineering science electives The typical sequence of courses is listed in departmental curriculum forms which are available in the College Records Office.
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