Civil Engineering B.S.

Mission

The faculty and staff provide the opportunity for civil engineering students to develop state-of-the-art engineering knowledge and skills through student-centered education and research. Teamwork, professionalism and the importance of life-long learning are hallmarks of our program. Students and faculty provide outreach through innovative civil engineering solutions to significant regional, national, and global issues.

Vision

The department will be a leader in civil engineering education through the integration of design in the curriculum. Upon graduation, our students will be able to excel in the global civil and environmental engineering community. We will be a recognized center for innovative civil engineering research and expertise that meets the needs of industry, government, and society.

Program Educational Objectives

  1. Graduates demonstrate the knowledge, skills, and attitudes necessary to become engineering leaders and assume responsibility for multidisciplinary engineering design; project construction, and asset management; and ethical decision making in professional practice.
  2. Graduates continue to grow intellectually and professionally through participation in professional society activities, continuing engineering education, graduate studies, and/or self study during their professional career.
  3. Graduates demonstrate effective oral, written, and graphical communication skills to meet increasing professional demands.
  4. Graduates become licensed professional engineers.

Program Educational Outcomes

Graduates:

  1. Apply knowledge of traditional mathematics, science, and engineering skills, and use modern engineering tools to solve problems.
  2. Design and conduct experiments, as well as analyze and interpret data in more than one civil engineering sub-discipline.
  3. Design systems, components, and processes and recognize the strengths and areas for possible improvement of their creative designs within realistic constraints such as economic, political, social, constructability, sustainability, public health and safety, environmental, and ethical.
  4. Work independently as well as part of a multidisciplinary design team.
  5. Identify, formulate, solve, and evaluate engineering design problems using engineering models in the disciplines of structural engineering, transportation engineering, hydrology, construction management, and/or environmental engineering.
  6. Analyze a situation and make appropriate professional and ethical decisions.
  7. Demonstrate effective oral, written, and graphical communication skills.
  8. Demonstrate a commitment to learning and continued professional development outside the classroom, incorporate contemporary issues and historical perspectives during problem solving, and determine the impact of engineering solutions in a global and societal context.
  9. Explain professional practice attitudes, leadership principles and attitudes, management concepts and processes, and concepts of business, public policy, and public administration.

Graduation Requirements

During a civil engineering student’s first semester at The University of Texas at Tyler, a civil engineering faculty member is assigned as the student’s academic advisor to work with the student in planning a program of study to complete degree requirements. Students are encouraged to meet with their advisor throughout the semester and are required to meet with their advisor prior to registering for the next semester or summer session.

To graduate with a Bachelor of Science in Civil Engineering degree, a student must

  1. complete the general baccalaureate degree requirements for the university;
  2. complete the Civil Engineering curriculum requirements as shown below; with an average of 2.5 GPA on all courses taken in the College of Engineering and Computer Science, and
  3. achieve a satisfactory score on the National Council of Examiners for Engineering and Surveying (NCEES) Fundamentals of Engineering (FE) examination. The NCEES FE exam is offered twice each year in April and October. A senior may take the FE exam within one year of completing the BSCE curriculum. The FE exam may be taken more than once, and seniors will be encouraged to take the exam at the earliest opportunity.

Civil Engineering Completion Curriculum

Students who have earned the Texas Associate of Science in Engineering Science degree from an ASAC/ABET accredited program at a participating community college, with an overall GPA of at least 2.50/4.00 and with no grade lower than “C,” are eligible to pursue the Civil Engineering Completion Program to earn a Bachelor of Science in Civil Engineering. If you are eligible, this program will likely enable you to complete the degree in the shortest time. Before beginning study, however, you should discuss your eligibility with an engineering advisor.

Total Semester Credit Hours=128

Freshman Year

First Semester (16 hrs.)

ENGR 1200Engineering Methods

ENGL 1301College Composition I [TCCN: ENGL 1301]

MATH 2413Calculus I [TCCN: MATH 2413]

CHEM 1311General Chemistry I [TCCN: CHEM 1311]

CHEM 1111General Chemistry I Laboratory [TCCN: CHEM 1111]

POLS 2306Introductory Texas Politics [TCCN: GOVT 2306]

Second Semester (16 hrs.)

ENGR 1204Engineering Graphics I

ENGL 1302College Composition II [TCCN: ENGL 1302]

MATH 2414Calculus II [TCCN: MATH 2414]

PHYS 2325University Physics I [TCCN: PHYS 2325]

PHYS 2125University Physics I Laboratory [TCCN: PHYS 2125]

Visual and Performing Arts

Sophomore Year

First Semester (17 hrs.)

POLS 2305Introductory American Government [TCCN: GOVT 2305]

CENG 2336Geomatics

CENG 2301Statics [TCCN: ENGR 2301]

MATH 3404Multivariate Calculus

PHYS 2326University Physics II [TCCN: PHYS 2326]

PHYS 2126University Physics II Laboratory [TCCN: PHYS 2126]

Second Semester (18 hrs.)

HIST 1301United States History I [TCCN: HIST 1301]

CENG 2302Dynamics [TCCN: ENGR 2302]

CENG 3306Mechanics of Materials

ECON 2301Principles of Economics I [TCCN: ECON 2301]

ECON 2302Principles of Economics II [TCCN: ECON 2302]

MATH 3305Ordinary Differential Equations

PHIL 2306Introduction to Ethics [TCCN: PHIL 2306]

Junior Year

First Semester (16 hrs.)

CENG 3434Civil Engineering Materials, Codes, and Specifications

CENG 3310Fluid Mechanics

MATH 3351Probability and Statistics for Engineers and Scientists

CENG 4339Civil Engineering Construction Management

Additional Science Elective

Second Semester (15 hrs.)

CENG 3361Applied Engineering Hydrology and Hydraulic Design

CENG 3351Transportation Engineering Systems

CENG 3371Introduction to Environmental Engineering

CENG 3336Soil Mechanics and Foundation Design

CENG 3325Structural Analysis

Senior Year

First Semester (15 hrs.)

CENG 4351Traffic Engineering: Operations and Control

CENG 4412Reinforced Concrete and Steel Design

CENG 4371Environmental Engineering Design

CENG 4115Senior Design I

CENG 4381Foundation Design

ENGR 4109Senior Seminar

Second Semester (15 hrs.)

CENG 4315Senior Design II

HIST 1302United States History II [TCCN: HIST 1302]

CENG 4341Civil Engineers and Leadership, Public Policy, Business Practices, and Asset Management

CENG Elective

World or European Literature