civil & environmental engineering program

Civil & Environmental Engineering Program Training Civil Engineering Leaders since 1859

ENVIRONMENTAL GEOTECHNICAL

STRUCTURAL TRANSPORTATION

Our graduates are trained to be leaders in the civil engineering profession. They possess a high technical competence, outstanding communication skills and a high level of

professional confidence.

engineering.missouri.edu/civil/

Table of Contents • Civil & Environmental Engineering: The Past, The Present, The

Future, Technical Specialties and Careers • Undergraduate Research

• How to Succeed in Engineering During Your First Semester

• CEE Plan of Study

• CEE Plan of Study Flow Chart

• Degree Requirements

• Approved Electives

• Recommended Math/Basic Science Electives

• Suggested Advisor Approved Electives

• General Education Requirements

Contact Information

Civil Engineering Office 22 Heinkel Building Columbia, Missouri 65211 573-882-6269 Main Line 573-882-4784 Fax Number

Chair (Interim) J. Erik Loehr, PhD, PE [email protected] 573-882-6380 Direct Number

Director of Undergraduate Studies Enos C. Inniss, PhD [email protected] 573-882-2041 Direct Number

Student Program Coordinator Laura Pierce [email protected] 573-882-0165 Direct Number

www.civil.missouri.edu

Civil & Environmental Engineering: The Past, The Present, The Future, Technical Specialties, and Careers

(adapted in part from the American Society of Engineers, http://www.asce.org/)

CIVIL ENGINEERING: AN EXCITING CAREER WITH AN INCREDIBLE HISTORY AND A TREMENDOUS FUTURE

From the pyramids of Egypt to the exploration of space, civil engineers have always faced the challenges of the future - advancing civilization and building our quality of life. Today, the world is undergoing vast changes - the technological revolution, population growth, environmental concerns, and more. All create unique challenges for civil engineers. The next decades will be the most creative, demanding, and rewarding times for civil engineers.

Making a Mark on the World Throughout history, civil engineers have designed and built facilities that have advanced civilization and have provided for a higher standard of living.

The Pyramids of Egypt- a symbol of ancient engineering. The Glories of Ancient Rome – the Coliseum, great aqueducts, and great roads for trade. The Symbol of London - the majestic Tower Bridge spanning the River Thames. The Panama Canal - to shorten the voyage between New York and California. The Hoover Dam - for water conservation, power production, flood control, recreation, and fish and wildlife enhancement on the Colorado River. Crossing San Francisco Bay - the Golden Gate Bridge.

Civil Engineering: The Present

Today, civil engineers are in the forefront of technology. They are the leading users of sophisticated high-tech products - applying the very latest concepts in computer-aided design (CAD) during design, construction, project scheduling, and cost control.

Civil engineering is about community service, development, and improvement. It involves the conception, planning, design, construction, and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challenges of pollution, traffic congestion, drinking water and energy needs, urban redevelopment, and community planning.

A Showcase of Excellence

The Channel Tunnel - One of the most current and exciting civil engineering feats has linked Britain and France for the first time in 8,000 years. The Channel Tunnel (or "Chunnel") is among the largest engineering projects in history and the longest undersea tunnel ever built. High-speed trains are now crossing the English Channel on a regular schedule.

Very Tall Buildings - There has been an on going effort to create the tallest building in the world. The Chrysler Building dominated New York's skyline for years until the opening of the Empire State Building which was soon surpassed by the World Trade Towers, the Sears Building in Chicago, and most recently the Petronas Towers in Malaysia.

High Speed Trains - Sleek, silvery bullet trains reach speeds near 300 mph in Japan and Europe. Today, more and more sophisticated rail lines are being proposed to solve transportation needs around the world.

Harbor Rescue - The quality of our environment has always been a high priority of civil engineers. One of the many "green" projects today is the Deer Island Wastewater Treatment Plant, the multi-billion dollar cleanup effort of the Boston Harbor. The project used state-of-the-art design and included the boring of a 16-kilometer outfall tunnel beneath the ocean.

Last updated: 6/28/13

Freedom Update - The technology of living in space is continually refined with the developments of the space station Freedom. Its many advanced features put this project in the forefront of worldwide engineering.

These are just a few examples which illustrate civil engineering as a lively and innovative profession. One of the greatest rewards of civil engineering is to see your own enduring creation helping to improve the quality of life.

Civil Engineering: Technical Specialties

Environmental and Water Resources Engineering Geotechnical Engineering Structural Engineering Transportation Engineering

Environmental and Water Resources Engineering - The skills of environmental engineers are becoming increasingly important as we attempt to protect the fragile resources of our planet. Environmental engineers translate physical, chemical, and biological processes into systems to destroy toxic substances, remove pollutants from water, reduce non-hazardous solid waste volumes, eliminate contaminants from the air, and develop groundwater supplies. In this field, you might be called upon to resolve problems of providing safe drinking water, cleaning up sites contaminated with hazardous materials, cleaning up and preventing air pollution, treating wastewater, and managing solid wastes. As a water resources engineer, you might be involved in the design, construction, or maintenance of hydroelectric power facilities, canals, dams, pipelines, pumping stations, locks, or seaport facilities.

Geotechnical Engineering - Almost all of the facilities that make up our infrastructure are in, on, or with earth materials, and geotechnical engineering is the discipline that deals with applications of technology to solve these problems. Examples of facilities in the earth are tunnels, deep foundations, and pipelines. Highway pavements and many buildings are supported on the earth. And earth dams, levees, embankments, and slopes are constructed with the earth. In addition, many soil-like waste materials are deposited in containment areas. To design these facilities, geotechnical engineers must conduct analyses based on the principles of mechanics and mathematics. These analyses require input data to quantify the properties of the earth materials, and this information is usually obtained from laboratory or field tests.

Structural Engineering - As a structural engineer, you will face the challenge of analyzing and designing structures to ensure that they safely perform their purpose. They must support their own weight and resist dynamic environmental loads such as hurricanes, earthquakes, blizzards, floods, and even terrorist explosions. Stadiums, arenas, skyscrapers, offshore oil structures, space platforms, amusement park rides, bridges, office buildings, and homes are a few of the many types of projects in which structural engineers are involved. You will develop and utilize knowledge of the properties and behaviors of steel, concrete, aluminum, timber, and plastic as well as new and exotic materials. To make certain that the plans are being followed, you will often be on the construction site inspecting and verifying the work.

Transportation Engineering - Because the quality of a community is directly related to the quality of its transportation system, your function as a transportation engineer will be to move people, goods, and materials safely and efficiently. Your challenge will be to find ways to meet the increasing travel needs on land, air and sea. You will design, construct, and maintain all types of facilities, including highways, railroads, airfields, and ports. An important part of transportation engineering is to upgrade our transportation capability by improving traffic control and mass transit systems, and by introducing high-speed trains, people movers, and other new transportation methods.

Civil Engineering Careers In considering any of these technical specialties, you may decide to teach in an accredited program or to participate in research to improve basic knowledge. In choosing a career in education or research, you will need to earn advanced degrees. Beginning as an assistant professor, your experience may lead you to become a professor, department head, or university administrator. You may teach both graduate and undergraduate students. As your reputation grows, you may be in demand to serve on technical boards and commissions associated with major engineering projects. You may also decide to pursue a career in the area of engineering management. This may involve overseeing the completion of projects costing billions of dollars, requiring both technical and business related skills. Management requires a technical education combined with an ability to coordinate personnel, materials, equipment, and money.

Civil engineers may be found through the workplace in a variety of functions. Aside from traditional engineering


firms, you may work with utility companies, telecommunication businesses, consulting firms, or even toy and athletic equipment manufacturers. A civil engineering degree can lead you to a career in industry, government, computers, law, or medicine. It's your choice!

Begin Building Your Future Now

Do you enjoy solving problems and putting your ideas into action? Are you curious about how things work and how to make them better? Are you interested in improving the environment? Are you socially aware and interested in helping people live better?

These are some of the qualities shared by all civil engineers. They also make sound decisions and are good communicators, using speaking, writing, and listening skills. If you share some of the traits, civil engineering may be the perfect career for you.

Get Involved in Student Activities As a civil engineering or technology student, there are many fun and exciting ways to get involved. By joining a Student Chapter or Club of the American Society of Civil Engineers (ASCE), you can participate in many activities that allow you to develop professionally, outside the classroom. Typical activities include: the challenge of designing, building, and racing canoes made from concrete; community service projects; steel and wood bridge building competitions, guest lectures, leadership workshops, etc. MU has an active ASCE chapter whose members have competed against other schools in concrete canoe, steel bridge, timber bridge, environmental, and geotechnical competitions.

Concrete Canoe Team

Geotechnical Retaining W all 2007 National Champions

Steel Bridge Team

Timber Bridge


Earn While You Learn There are many sources of financial aid available to civil engineering and technology students. You may opt for cooperative education and work-study programs, which allow you to earn tuition by attending classes for a portion of the year, then work in an engineering-related job for the remainder of the year. "Co-op" students generally take five years or more to complete their engineering degrees. You can also pay for tuition with: part-time employment and summer jobs; scholarships and grants; loans; ROTC-sponsored programs; or other special programs. There is also an undergraduate honors program (that provides up to 3 credit hours for working on a research project, 6 hours of graduate credit and pays approx. $1000/semester. Your best source of information is the financial aid officer at the school you plan to attend.

Undergraduate Research Poster Presentation at the State Capitol

Geotech Lab Research

Thermal Imaging of the Columns

Transportation Research

Beyond the Bachelor's Degree More than one-third of civil engineering graduates today go on to earn a master's degree. Most full-time graduate students are supported as Teaching or Research Assistants. Some pursue graduate studies part-time while working full-time. More and more civil engineers are continuing on to the doctorate degree, usually to prepare for careers in research or teaching, and to solve more sophisticated design problems. Obtaining a master's degree or Ph. D. will greatly help you become an expert in your chosen field. In civil engineering, as in any profession, your education never ends; old knowledge is continually supplemented by new knowledge. To keep up with the changes, you may pursue continuing education programs made available by universities and by professional societies, such as the American Society of Civil Engineers.

The Fundamentals of Engineering Examination: Your First Step to Professional Licensure As a civil engineering professional, you will be directly responsible for public safety and welfare. Your buildings must perform according to their specifications. Your highways must carry traffic safely. Your dams cannot fail. In other words, your work reflects your experience, and must conform with accepted principles and practices of civil engineering. To become a licensed civil engineer (professional engineer), you must complete the requirements for professional licensure established by the state or territories in which you plan to practice. This requires a combination of education, experience, and the successful completion of at least two exams. Each individual state and/or territory maintains updated information regarding specific licensing requirements.

Your First Job: Gaining Valuable Experience In your first job, you will likely be teamed with a senior engineer. You will be guided through a variety of assignments, depending on the civil engineering specialty area you pursue. Later, job responsibility will increase with your continuing education and experience. This allows you to build your problem-solving skills and your self- confidence.

Set the Pace for the Future by Becoming a Civil Engineer The world of tomorrow will look to you to help clean the air, improve our cities and transportation systems, purify our water, and provide many solutions that are vital to life. With the skills you learn, you can be among the leaders shaping our 21st century.


Undergraduate Research Program The College of Engineering Undergraduate Research Program can give you a $1,000 for each semester to conduct undergraduate research under the supervision of a faculty advisor.

Generally undergraduate researchers start during their sophomore or junior year. That’s getting an early start on research, which will not only look good on your resume (you were all thinking it), but will give you first hand experiences with research faculty and graduate students. Besides being future references, they’ll give you valuable work experience as you begin your career - early.

What other benefits does the Undergraduate Research Program have for you?

If you elect to participate in the Engineering Honors Program as well, you’ll be able to shorten your graduate career by counting up to six hours of undergraduate research towards graduate credit. You’ll also have developed expertise that can help you start immediately on a graduate-level research project when you go to grad school – and you can use your work experience as the basis for an Honor’s thesis.

Then there’s the Bachelor of Science diploma with the “Honors Scholar” designation that you’ll receive upon graduation.

$1,000 stipend per semester to do undergraduate research. This is not a scholarship, so it has no impact on your eligibility for College of Engineering scholarships!

Exposure to research early on in your academic career

First-hand experience with research faculty and graduate students

If enrolled with the Honors Program, up to six undergrad research hours can count as graduate credit

Graduating with “Honors Scholar” designation

Requirements

You must maintain a 3.0 overall GPA

Forms

On the application form, you must have a signature from a faculty mentor along with signatures indicating financial support from the home department or mentor. Download the New Application Form (DOC)

Download the Renewal Application (DOC)

Other important notes

There is no automatic academic credit from this program. To receive academic credit, you must register for credit hours in CV_ENG 4995 (Honors Research).

You must do an average of 10 hours of work per week in a research or laboratory setting to qualify for the stipend.

You’ll be encouraged to jointly enroll in graduate school during last 15 hours of your BS degree, so that any additional course work you take as an undergraduate (and not required for your degree) can be used for graduate credit.

If you participate in the Undergraduate Research Program, you’ll be considered an employee of the university. You must see your department administrator to complete all necessary employment documentation before you begin work for your faculty mentor.

Adapted from: http://engineering.missouri.edu/current-students/undergrad-research.php


How to Succeed in Engineering During Your First Semester

The transition from high school to college can be difficult if a student is not prepared for the responsibilities and expectations placed on college students. You are responsible for your success or failure. Please consider the following to help you make your first semester a success.

1. Attend every lecture, lab, recitation, and discussion group meeting for your classes. If you must miss a session due to illness find a way to catch up with the material and the work.

2. Work two hours outside of class for every credit-hour. Complete and submit all homework on time. Read

and understand everything your instructor assigns.

3. Your full-time job for the 16 weeks of your first semester is to be a successful student. This will require about 45 hours per week. During the semester you will receive a one week vacation, and, when it ends, you will have a four week vacation. That is not a bad deal.

4. Even though you will be working 45 hours per week on school work, you will still have time for many

enjoyable recreational and social activities. Find ones you value.

5. If your grades after your first semester are lower than you desire, then find a way to work more efficiently (e.g. better study location, better study time, etc). If your grades are too high then you may choose to work less (please smile, that was a joke).

6. There are definite benefits to this approach. Students who study more earn significantly higher salaries in

later years. The better you are as an engineer, the better and more interesting will be the projects you undertake in your career.

How Many Semesters Until Graduation?

126 = credits for B.S. degree for a student who starts with Calculus I • 126 credits/8semesters = 15.75 credits/semester • 126 credits/9 semesters = 14.00 credits/semester

131 = credits for B.S. degree for a student who starts with pre-Calculus • 131 credits/8 semesters = 16.4 credits/semester • 131 credits/9 semesters = 14.55 credits/semester

Name: ID:

UM +/-

1st (1

6 hr

s)

MA 1500 Analytical Geometry/Calculus I 5 5 CHEM 1320 College Chemistry I 4 3 ENGR 1100 Engineering Graphics 2 2 ENGLISH 1000 Exposition & Argumentation 3 3 SBS or HFA 3 hrs * Enter in SBS/HFA area below

2nd (1

7 hr

s) MATH 1700 Calculus II 5 5

PHYS 2750 University Physics 5 5 GEOL 1150 Physical Geology for Sci & Eng 4 4 SBS or HFA 3 hrs * Enter in SBS/HFA area below

3rd (1

6 hr

s) MATH 2300 Calculus III 3 3

ENGR 1200 Statics/Strength Materials 3 3 CV ENG 3010 Decision Methods CE Design (WI) 3 3 CV ENG 3200 Fund of Environmental Engr. 4 4 SBS or HFA 3 hrs * Enter in SBS/HFA area below

4th (1

5 hr

s) MATH 4100 Differential Equations 3 3

PHYS 2760 University Physics * 5 5 ENGR 2200 Strength of Materials 3 3 CV ENG 3100 Fund. of Transportation Engr 4 4

5th (1

6 hr

s)

Advisor Approved Elective (1 hr) Enter in Civil/Approved Electives area CV ENG 3600 Civil Engineering Materials 4 4 CV ENG 3300 Structural Analysis I 4 4 CV ENG 3400 Fund. of Geotechnical Engr 4 4 CV ENG 3700 Fluid Mechanics 3 3

6th (1

6 hr

s)

CV ENG 3312 Rein Concrete -or- CV ENG 3313 Struct Steel

3

3

INFOTC 1040 Intro to Prob. Solving 3 3 CV ENG 3702 Hydrology 4 4 Civil Engineering Electives (3 Enter in Civil/Approved Electives area

SBS or HFA 3 hrs Enter in SBS/HFA area

7th (1

5 hr

s) Enginr Topics Elective * 3 3 Specify

Civil Enginr Electives (6 Enter in Civil/Approved Electives area Engr. Topic Elective * 3 3 Specify SBS or HFA 3 hrs Enter in SBS/HFA area

CV ENG 4980 CE Sys Design (WI) 3 3 SBS or HFA 3 hrs Enter in SBS/HFA area

8th ( Civil Enginr Electives (6

Enter in Civil/Approved Electives area Advisor Approved Elective (3

SBS

(9hr

s) (MO Const. Req) *

HSF

A

(9 h

rs)

CE/

App

rove

d El

ecs.

(m

in. 1

8 hr

s)

CV ENG 3 3 CV ENG 3 3 CV ENG 3 3 CV ENG 3 3 CV ENG 3 3 AAE** 3 3

Total Completed: Total Min (ABET): 126 32 48

CODES Other Course #'s & C Univ. of Missouri- Columbia T1 T2

15 h

rs)

* See Reverse for Details ** Advisor Approved Electives Last updated: 6/28/13

06/2

8/13

*The following information correlates to the Plan of Study: SBS/HFA: All engineering students must take nine-credit hours in each of two areas: (1) Social/Behavioral Science (SBS) and (2) Humanities/Fine Arts (HFA). One course must be upper level course 2000/3000/4000). One

course in SBS must also be either History or U.S. Govt. Students may choose from: History 1100, 1200, 1400, 2210, 2440, 4000, 4220, 4230 or Poli Sci 1100 or 2100. There must be at least two departments represented in each of the nine-hour blocks. Engineering students may elect to fulfill the humanities and fine arts (HFA) requirement by satisfying at least 12 hours in a single foreign language (achieving proficiency). The language option fulfills the upper level course requirements and exempts the student from having two departments represented in that block. Consult with language department to determine if completion of an upper level course can lead to transcripted hours for lower level courses not needed. The list of accepted SBS & HFA courses can be found at: generaleducation.missouri.edu.

Physics 2760: Students may substitute Chem 1330 & Chem 2100 for Physics 2760.

Engnrg Topics: 2 courses (6 credit hrs) are required from engnrtopics. Select from: (a) Circuits (CV ENG 4610, Engr 2100, or BE 4380) (b) Thermo. (Engr 2300, or ChE 3261) or (c) Dynamics (CV ENG 2080).

Calc I (5)

Pre req: C in

Math 1150, 1180 or equiv

Chem 1320 Chem II

(3) Pre req: Math

1100 or equiv & HS

Chem

Expos & Argu (3)

Calc II

(5)

Physics 2750

Physics (5)

Calc III

(3)

Engr 1200 Statics

(3)

Decision Methods for CV

ENG Design (WI) (3)

Engr 2200 Inter Str of

Mat

6th Semester

Hum/FA or Social/Beh

Science Elective

Must earn C- or better.

Engr 1100 Engr Graphics

Hum/FA or Social

Sci. Elective

GEOL 1150 Physical

Geology for Scientist and

Engineers w/lab (4)

ENG

3400

Fund of Geotech. Engr.

(WI) Writing Intensive (#) Credit Hours

Prerequisites and grade of C- or better

Co-requisites

1st semester 17 hours

Math 1500 Calc I

(5) Pre req:

C in Math 1150, 1180 or

equiv

Chem 1320 Chem I

(4) Pre req: Math

1100 or equiv & HS Chem

English 1000 Expos & Argu

(3)

2nd Semester 17 hours

Math 1700 Cal II (5)

Physics 2750

Physics (5)


Science Elective

(3)

3rd Semester 16 hours

Math 2300 Calc III

(3)

Math Diff

Engr 1200 Statics

(3)

CV ENG 3010 Decision

Methods for CV ENG Design (WI)

(3) Must earn a

grade of C- or better

5th Semester 17 hours


Engr 2200 Inter Str of

Mat (3)

Physics 2760

Physics (5)

CV ENG 3600

Cv Eng Materials

(4) or consent

CV ENG 3702

Hydrology (4)

CV ENG 3700

Fluid Mech (3)


Science Elective

(3)


6th semester 16 hours

Engr Topics Elective

(3)

INFOTC 1040 Intro to Prob Solv & Prog

(3)


Engr Topics Electives

(3)

CV ENG 4980

CE Systems Design (WI)

(3) Pre-req: Last Semester/Se

nior. Must earn grade

of C- or better

CV ENG Electives

(3)

CV ENG Electives

(3)

CV ENG Electives

(3)

CV ENG Electives

(3)

Engr 1100 Engr Graphics

(2)


Science Elective

(3)


Science Elective

(3)


Science Elective

(3)

CV ENG 3200

Fund of Environ

Engr (4)

CV ENG 3100

Fund. of Trans Engr

CV ENG 3300

Structural Analysis I

(4)

CV ENG 3313 Struct Steel

Des (3)

Hum/FA Social/Beh

Science Elective

(3)

CV ENG 3400

Fund of Geotech. Engr.

(4)

CV ENG 3312 Reinf Concrete

(3)

OR

Advisor Approved Elective

(3)

CV ENG Electives

(3)

To earn a B.S. degree in Civil Engineering, at least 126 total hours must be completed. These hours include the following:

University Requirements: 21 hours Engineering Requirements: 17 hours SBS (9 hours) (see flowchart for details) ENGR 1100 Engineering Graphics (2 hrs) Missouri Constitution Requirement CS 1040 Introduction to Problem Solving (3 hrs) (Choose One Course: Hist 1100, 1200, 1400, 2210, ENGR 1200 Statics/Strength Materials (3 hrs) 2440, 4000, 4220 or 4230 or Poli Sci 1100 or 2100) ENGR 2200 Strength of Materials (3 hrs) HFA (9 hrs) (see flowchart for details) Enginr. Topics Elective (6 hrs) (see flowchart for details) ENGLISH 1000 Exp & Arg (3 hrs)

Math Requirements: 16 hours Civil Engineering Core Courses: 36 hours MA 1500 Geom/Calc I (5 hrs) CV ENG 3010 Decision Methods CV ENG Des (WI) (3 hrs) MATH 1700 Calc II (5 hrs) CV ENG 3200 Fundamentals of Environmental Engr. (4 hrs) MATH 2300 Calc III (3 hrs) CV ENG 3300 Structural Analysis I (4 hrs) MATH 4100 Diff Equations (3 hrs) CV ENG 3400 Fundamentals of Geotech Engr (4 hrs)

CV ENG 3700 Fluid Mechanics (3 hrs) Science Requirements: 17 hours CV ENG 3100 Fundamentals of Trans Engr (4 hrs) CHEM 1320 Gen Chem II (4 hrs) CV ENG 3312 Reinforced Concrete Design PHYS 2750 Univ Physics (5 hrs) -OR - CV ENG 3313 Structural Steel Design (3hrs) PHYS 2760 Univ Physics (5hrs) CV ENG 3600 Civil Engineering Materials (4 hrs) [or Chem 1330 (4 hrs) & Chem 2100 (3hrs)] CV ENG 3702 Hydrology (4 hrs) GEOL 1150 Physical Geology for Scientist/Engineers w/Lab (4hrs) CV ENG 4980 CV ENG Systems Design (WI) (3 hrs)

Advisor Approved Electives: (3 hours) Civil Engineering Electives: 5 classes (15 hours) See List 2 (reverse) See List 1 (below) Updated 6/28/13

CV ENG Approved Electives (List 1)

CV ENG 2080- Introduction to Dynamics CV ENG 3050 – Introduction to Geographical Information Systems GIS CV ENG 3250 – Pollutant Fate and Transport CV ENG 3312- Concrete Design -or-

CV ENG 3313 Struc Steel Design CV ENG 4100 - Traffic Engineering CV ENG 4102 - Infrastructure Management CV ENG 4103 - Planning and Geometric Design of Highways CV ENG 4104 - Pavement Materials and Design CV ENG 4106 - Intelligent Transportation Systems CV ENG 4108 - Bicycle and Pedestrian Transportation CV ENG 4110 - Transportation Simulation CV ENG 4120 - Airport Engineering CV ENG 4125 – Transportation Legal Issues CV ENG 4130 – Transportation Safety CV ENG 4145- Civil and Environmental Legal Issues CV ENG 4155- Transportation Geography CV ENG 4175- The Geospatial Science in National Security CV ENG 4185- Location Analysis/Site Selection CV ENG 4190 – Infrastructure Project Development CV ENG 4200 - Remote Sensing of the Environment CV ENG 4210 - Solid Waste Management CV ENG 4220 - Hazardous Waste Management CV ENG 4230 - Introduction to Water Quality CV ENG 4240 - Water Quality Analysis CV ENG 4250 - Environmental Regulatory Compliance CV ENG 4290 - Hazardous Waste and Aquatic Chemistry

CV ENG 4300 - Advanced Structural Steel Design CV ENG 4302 - Prestressed/Advanced Reinforced Concrete CV ENG 4310 - Structural Design and Analysis CV ENG 4008 - Risk and Reliability for Civil Engineers CV ENG 4320 - Energy Methods in Mechanics CV ENG 4085 - Problems in Civil and Environmental Engineering CV ENG 4330 - Structural System Design CV ENG 4350 - Matrix Methods of Structural Analysis CV ENG 4360 - Bridge Engineering CV ENG 4404 - Geotechnical Earthquake Engineering CV ENG 4406 - Geotechnics of Landfill Design CV ENG 4410 - Foundation Engineering CV ENG 4412 - Earthwork Engineering and Design CV ENG 4500 - Introduction to Construction Management CV ENG 4600 - Advanced Mechanics of Materials CV ENG 4610 - Sensors and Experimental Stress Analysis CV ENG 4660 - Vibration Analysis CV ENG 4692 - Introduction to Structural Dynamics CV ENG 4700 - Hydraulics of Open Channels CV ENG 4703 - Applied Hydrology CV ENG 4710 - Soil and Water Conservation Engineering CV ENG 4720 - Watershed Modeling Using GIS CV ENG 4730 – Hydraulic Design CV ENG 4792 - Analysis of Water-Resource Systems CV ENG 4260 - Environmental Public Policy CV ENG 4270 - Environmental Engineering Microbiology CV ENG 4990 - CEE Undergraduate Research CV ENG 4995 - Research in CEE-Undergraduate Honors

Eligible students may take any 4000-level course as 7000-level. Dual-enrollment policies will apply. See advisor for details.


civil & environmental engineering program

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