C E-CIVIL ENGINEERING (C E)
C E 109. Computer Drafting Fundamentals
3 Credits (2+2P)
Introduction to principles and fundamentals of drafting using both manual drawing techniques and computer-aided drafting (CAD) applications. Crosslisted with: DRFT 109 and E T 109. May be repeated up to 3 credits.
Learning Outcomes
- Describe related career options/pathways.
- Explain and apply common drafting terms, concepts, and conventions.
- Utilize various AutoCAD commands and Coordinate Entry methods to produce accurate and precise Two-Dimensional drawings.
- Setup AutoCAD working environment, drawings, styles, and applicable settings.
- Navigate the AutoCAD user interface efficiently.
- Apply different drafting methods, strategies, and processes.
- Utilize AutoCAD to produce basic 2D CAD working drawings.
- Measure utilizing scales accurately.
- Create drawings with different scales and units. 1
- Plot drawings produced in AutoCAD at various scales and on various sheet sizes. 1
- Utilize the two Drawing Environments: Paper Space and Model Space. 1
- Manage AutoCAD drawing files.
C E 151. Introduction to Civil Engineering
3 Credits (3)
Problem solving and use of computer software for civil engineering applications. May be repeated up to 3 credits.
Prerequisite(s)/Corequisite(s): MATH 1220G.
C E 198. Special Topics
1-3 Credits
May be repeated for a maximum of 6 credits.
Prerequisite: consent of department head.
C E 233. Mechanics-Statics
3 Credits (3)
Engineering mechanics using vector methods. May be repeated up to 3 credits.
Prerequisite: C- or better grade in MATH 1521G or MATH 1521H, C- or better grade in PHYS 1310G and cumulative GPA of 2.0.
Learning Outcomes
- Student will be able to apply concepts of equilibrium.
C E 234. Mechanics-Dynamics
3 Credits (3)
Kinematics and dynamic behavior of solid bodies utilizing vector methods. May be repeated up to 3 credits.
Prerequisite: A grade of C- or better grade in the following: C E 233 and PHYS 1310G and MATH 1521G or MATH 1521H.
Learning Outcomes
- Student will be able to apply concepts of kinematics and accelerated motion.
C E 256. Environmental Engineering and Science
3 Credits (3)
Principles in environmental engineering and science: physical chemical systems and biological processes as applied to pollution control. Crosslisted with: ENVS 2111
Prerequisite: CHEM 1215G and MATH 1511G or ENGR 190.
Learning Outcomes
- To understand the nature of water quality parameters in the context of Civil Engineering and Environmental Science (Water Treatment/Wastewater Treatment/Environmental Science)
- To learn to apply engineering and scientific solutions to water quality problems
- To understand environmental regulations and their consequences on the design of pollution control systems
C E 256 L. Environmental Science Laboratory
1 Credit (1P)
Laboratory experiments associated with the material presented in C E 256. Same as ENVS 2111L.
Corequisite(s): C E 256.
C E 298. Special Topics
1-3 Credits
May be repeated for a maximum of 6 credits.
Prerequisite: consent of department head.