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    Oct 10, 2024  
2023-2024 Undergraduate Catalog 
    
2023-2024 Undergraduate Catalog [ARCHIVED CATALOG]

Construction Engineering Technology, BSET


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A Bachelor of Engineering Technology with a major in construction engineering technology is an applied degree for a career in engineering featuring a unique 50/50 mix of construction engineering and construction management to make you competitive in today’s construction industry.  Build a full-scale modular house during your first year. Expand your Senior-Year Capstone project and consider the Grad-Track option to earn the BSET and MSET in 5 years.  


The construction engineering technology major provides educational experiences for the development of technical knowledge and skills necessary in today’s construction industry. The program offers education in both the management and technical aspects, thus providing outstanding opportunities for sustainable employment. The program builds on a strong foundation in mathematics, science, engineering and general education. Knowledge and skills relative to the construction field such as surveying, cost estimating, construction materials, project scheduling, BIM, contracts and management, safety, and structures are acquired. Technical and management skills are enhanced through courses offered by other engineering technology programs and the College of Business. The development of technical communication and presentation skills is a requirement throughout the curriculum.

Construction engineering technology is accredited by the Engineering Technology Accreditation Commission of ABET (www.abet.org)

Program Education Objectives

Graduates will demonstrate strong leadership, management, communication, and teamwork sills while applying their acquired knowledge of mathematics, engineering and technology to identify, analyze, and solve problems pertaining to construction projects.  These capabilities will be demonstrated as follows:

  1. Students in graduate school
  2. Employment in Construction Industry
  3. Position in Construction Related Engineering Design Firms
  4. Management Position in Construction Industry
  5. Achievement of Professional Designation, i.e., Professional Engineer; LEED AP; Certified Professional Contractor
  6. Officer of Professional Association related to Construction Industry

Student Outcomes

  1. An ability to apply knowledge, techniques, skills and modern tools of mathematics, science, engineering, and technology to solve broadly-defined engineering problems appropriate to the discipline. (ABET SO1)
  2. An ability to design systems, components, or processes meeting specified needs for broadly-defined engineering problems appropriate to the discipline.  (ABET SO2)
  3. An ability to apply written, oral, and graphical communication in broadly-defined technical and non-technical environments; and an ability to identify and use appropriate technical literature. (ABET SO3)
  4. An ability to conduct standard tests, measurements, and experiments and to analyze and interpret the results to improve processes. (ABET SO4)
  5. An ability to function effectively as a member as well as a leader on technical teams. (ABET SO5)

Degree requirements

The following requirements must be satisfied for a Bachelor of Science in Engineering Technology with a major in construction engineering technology.

Hours required and general/college requirements


A minimum of 124 semester hours, of which 42 must be advanced, and fulfillment of degree requirements for the Bachelor of Science degree as specified in the “University Core Curriculum ” in the Academics section of this catalog and the College of Engineering  requirements.

Other requirements


  • A grade of C or better is required for all major courses and elective courses counting toward the major.
  • Courses taken to satisfy the technical options in the major must be approved by the academic advisor.

Minor


Optional.

Electives


Hours required for electives may vary based on course selection and the University Core Curriculum requirements . Electives may be required to satisfy the advanced hour requirement (42) and/or the minimum total hours required for the degree. For specific information, see an academic advisor in the College of Engineering.

Foundation course


CNET foundation courses are MATH 1710 , PHYS 1710 , PHYS 1730 , ENGR 1030 , TECM 2700 , CNET 1160 , CNET 2180 , and CNET 2300 .  

Successful completion of foundation courses is based on achieving a C or higher in each course.

Major transfer policy


Students enrolled at UNT can transfer into Construction Engineering Technology if they have completed the following courses with a C or better and a cumulative GPA of at least 2.5.  The courses are: MATH 1710 , CNET 1160 ENGR 1030 , PHYS 1710 /PHYS 1730 , CNET 2180 , and TECM 2700 .  

Successful completion of foundation courses is based on achieving a C or higher in each course.

Department policies


Policy on Academic Performance, Progression, and Dismissal in the College of Engineering

Students in the College of Engineering will conduct themselves in a professional manner in their interaction with their peers, faculty, staff and the community in general. A student may be dismissed from the college for inappropriate conduct (please refer to the Code of Student Conduct).

Each semester, students are required to take engineering foundation courses and/or prerequisites to the engineering foundation courses until all foundation courses are successfully completed.

Successful completion of the foundation courses is required for enrollment in all 3000 and 4000 level courses.

A minimum grade of C is required in all courses required in a student’s major for degree completion. Courses include, but are not limited to, engineering, computing, mathematics, laboratory sciences, supporting area, technical elective, technical option, energy elective, and specialization courses.

A minimum grade of C is required in all courses required in a student’s major for prerequisite completion. Courses include, but are not limited to, engineering, computing, mathematics, laboratory sciences, supporting area, technical elective, technical option, energy elective, and specialization courses.

A student making grades lower than C two times in the same course in any College of Engineering foundation course or in any course required by the major is subject to dismissal from the College of Engineering, pending a review by the Associate Dean for Undergraduate Studies in the College of Engineering.

A student must maintain good academic standing within the university. Please see “Academic status” and “Regulations governing students under academic suspension” in the Academics section of this catalog.”

Four-year degree plan (example)


The following four-year plan is one example of a variety of ways in which you can complete your chosen degree in four years, and will serve as a guide for you to design your pathway to degree completion. Variations will depend on whether you need to take prerequisites or have college credit from exams or dual enrollment.

 

Year 1

Semester 1 Semester 2
MATH 1710 - Calculus I   4 hours    MATH 1720 - Calculus II   3 hours  
CHEM 1410 - General Chemistry for Science Majors   3 hours   PHYS 1710 - Mechanics   3 hours  
CHEM 1430 - Laboratory Sequence for General Chemistry   1 hour   PHYS 1730 - Laboratory in Mechanics   1 hour  
CNET 1160 - Construction Methods and Materials   3 hours   TECM 2700 - Technical Writing   3 hours   
ENGR 1030 - Technological Systems   3 hours   CNET 2180 - Building Construction Techniques   3 hours  
Communication Core   3 hours American History core     3 hours
Total 17 hours Total 16 hours

 

Year 2

Semester 1 Semester 2
PHYS 2220 - Electricity and Magnetism   3 hours   ACCT 2010 - Accounting Principles I (Financial Accounting)   3 hours  
PHYS 2240 - Electricity and Magnetism   1 hour   CNET 4190 - Quality Management in Construction   3 hours  
CNET 2300 - Construction Graphics and Modeling  3 hours  DSCI 2710 - Data Analysis with Spreadsheets   3 hours  
ECON 1100 - Principles of Microeconomics   3 hours   ENGR 2332 - Mechanics of Materials   3 hours  
ENGR 2301 - Statics   3 hours     Government & Political Science core    3 hours
American History core    3 hours    
Total 16 hours Total 15 hours

 

Year 3

Semester 1 Semester 2
CNET 3150 - Construction Contract Documents  3 hours  CNET 3190 - Construction Scheduling   3 hours   
CNET 3160 - Construction Cost Estimating   3 hours   CNET 3440 - Steel Structures   3 hours  
CNET 3430 - Structural Analysis   3 hours    CNET 3460 - Soils and Foundations    3 hours  
BLAW 3430 - Legal and Ethical Environment of Business   3 hours   CNET 3410 - Occupational Safety and Liability   3 hours  
Government & Political Science core  3 hours Language, Philosophy & Culture core    3 hours
Total 15 hours Total 15 hours

 

Year 4

Semester 1 Semester 2
CNET 3480 - Structural Design with Concrete, Timber and Other Materials   3 hours   CNET 4180 - Problems in Project Management   3 hours  
CNET 4170 - Construction Management   3 hours    CNET 4620 - Advanced Design in Cold-Formed Steel Structures  3 hours 
CNET 4780 - Senior Design I   1 hour   CNET 4790 - Senior Design II  3 hours 
BLAW 4770 - Real Estate Law and Contracts   3 hours   CNET Technical Elective selection 4 hours
Creative Arts core    3 hours Elective 3 hours
Total 13 hours Total 16 hours

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