Undergraduate Program

Director of Undergraduate Programs
Dr. Susan Bogus Halter
sbogus@unm.edu 


Degrees Offered

  • Bachelor of Science in Civil Engineering (B.S.C.E.)
  • Bachelor of Science in Construction Engineering (B.S.Cn.E.)
  • Bachelor of Science in Construction Management (B.S.C.M.)

Introduction

Civil Engineering

Civil engineers design, build, and protect the infrastructure upon which modern society depends. Civil engineering encompasses a broad range of specialties, including water resources, environmental engineering, structural engineering, geotechnical engineering, materials, construction, and transportation. Development of sustainable solutions to societal needs is a central goal of civil engineers, and UNM's CE department has a defined focus on sustainable infrastructure. The Department seeks to provide our undergraduates with essential tools to address societal needs in a changing world, including water supply, protection of environmental and public health, effects of climate change, energy production and efficiency, and development and incorporation of new materials and nanotechnologies. Civil engineering projects include water supply and distribution systems, treatment systems for water and hazardous wastes, bioremediation, and structural systems such as smart buildings, bridges, dams, and transportation systems. These projects can be large and extensive, and must be engineered as operational systems involving the complex interaction of many components with each other as well as with the physical and societal environment. The scope, complexity and interdisciplinary nature of civil engineering continues to increase rapidly with technological innovations. Population growth, aging infrastructure, and increasing environmental concerns are vital contributors to an increasing need for civil engineers. 

The Department prepares undergraduate students to meet these challenges through innovative application of science and engineering principles, creative research to discover new knowledge and imaginative design to satisfy society’s needs. Courses in construction, environmental, geotechnical, materials, structural, transportation and water resources engineering ensure breadth in the undergraduate program. Undergraduate students are also encouraged to participate in research projects to explore areas of particular interest and to gain experience useful for graduate studies. 

Construction Engineering and Management

Students who are interested in careers in the construction industry can follow one of the construction oriented programs. The program in construction engineering is a traditional four-year engineering curriculum with courses pertaining to the technical aspects of construction and leading to a Bachelor of Science in Construction Engineering. The program in construction management is a four-year program that includes approximately equal emphasis in engineering science, business and management and construction operations and leads to a Bachelor of Science in Construction Management.

Construction Engineering focuses on planning, design, and management for the construction of large-scale projects including heavy/highway, building, and industrial. Construction engineering students are provided with the essential tools to respond to the evolving needs of the construction industry. Large projects, both civil and industrial, have become so complex that the effective use of capital, materials and processes requires specialized engineering and management knowledge. This program builds on a strong foundation of traditional engineering science, analysis and design, augmented by courses in construction processes and management. The program meets the needs of those students who are interested in working at the interface between design and construction.

Construction Management combines basic physical science, management, business and field construction knowledge. The development of management and entrepreneurial instincts is a major objective of this program. A broad background in the theory and reality of construction practice is provided by construction courses, starting with drafting skills and contracting documents, followed by surveying, construction equipment management, estimating and scheduling. Graduates from this program typically seek employment in areas of the construction industry requiring management skills and entrepreneurship. They work for general contractors, specialty contractors, design-build firms and owners of constructed facilities. This program attracts students who are primarily interested in building construction.


Bachelor of Science in Civil Engineering

The Bachelor of Science in Civil Engineering (B.S.C.E.) program is accredited by the Engineering Accreditation Commission of ABET http://www.abet.org. The Program Educational Objectives of the Civil Engineering program are:

  1. Graduates will meet high professional and ethical standards of employers of civil engineers.
  2. Graduates will pursue professional licensure and/or participate in advanced study.
  3. Graduates will pursue leadership positions in their communities and professions.

Curriculum

Credit hours required for graduation: 124.

Credit
Hours
First Year First Semester
CE 160L Civil Engineering Design 3
CHEM 121 General Chemistry I (1) 3
CHEM 123L General Chemistry I Laboratory (1) 1
ENGL 110
(or ENGL 112;
or ENGL 113)
Accelerated Composition 
(or Composition II;
or Enhanced Composition) (1)
3
MATH 162 Calculus I (1) 4
    14
  Second Semester  
BIOL 110
-or-
EPS 101
Biology Non-Majors

How the Earth Works-An Introduction to Geology
3
CS 151L Computer Programming Fundamentals for Non-Majors 3
ENGL 120 Composition III (1) 3
MATH 163 Calculus II 4
PHYC 160 General Physics (1) 3
    16
Second Year First Semester  
CE 202 Engineering Statics 3
CE 283 Surveying and Geomatics 3
ECON 105
-or-
ECON 106
Introductory Macroeconomics (1)

Introductory Microeconomics (1)
3
MATH 264 Calculus III 4
PHYC 161 General Physics  3
16
  Second Semester  
ENG 301 Fundamentals of Engineering: Dynamics 1
ENG 302 Fundamentals of Engineering: Electronic Circuits 1
ENG 303 Fundamentals of Engineering: Thermodynamics 1
ENGL 219 Technical and Professional Writing (1) 3
MATH **316 Applied Ordinary Differential Equations  3
STAT **345 Elements of Mathematical Statistics and Probability Theory 3
Core Humanities Elective (1) 3
15
Third Year First Semester  
CE 302 Mechanics of Materials 3
CE 305 Infrastructure Materials Science 4
CE 331 Fluid Mechanics 4
CE **372 Principles of Construction 3
CE 382 Transportation Engineering 3
    17
  Second Semester  
CE 308 Structural Analysis 3
CE **335 Environmental and Water Resources Engineering 3
CE 350 Engineering Economy 3
CE 360 Soil Mechanics 4
Core Fine Arts Elective (1) 3
    16
Fourth Year (2) First Semester  
Breadth Requirement Elective (3) (5) 3
Breadth Requirement Elective (3) (5) 3
  Breadth Requirement Elective (3) (5) 3
  Core Second Language Elective (1) 3
  Core Humanities Elective (1) 3
    15
  Second Semester  
CE 499 Design of Civil Engineering Systems 3
  Breadth Requirement Elective (3) (5) 3
  Depth Requirement Elective (4) (5) 3
Depth Requirement Elective (4) (5) 3
  Core Social and Behavioral Sciences Elective (1) 3
    15


Notes:

(1) Specific Core Curriculum requirements.
(2) Students must take the Fundamentals of Engineering exam prior to graduation.
(3) Breadth Requirement Elective: Students must take one elective in four of the possible six sub-disciplines: Construction, Environmental, Geotech, Structures, Transportation, or Water Resources.
(4) Depth Requirement Elective: Students must take two additional electives in an area of concentration within any of the sub-disciplines in which they took Breadth Requirement Electives. Electives must be at least a 400-level Civil Engineering course.
(5) See advisor for a list of approved Breadth and Depth Requirement Electives.


Bachelor of Science in Construction Engineering

The Bachelor of Science in Construction Engineering (B.S.Cn.E.) is accredited by the Engineering Accreditation Commission of ABET http://www.abet.org/. The Program Educational Objectives of the Construction Engineering program are: 

  1. Graduates will meet high professional and ethical standards of employers of construction engineers.
  2. Graduates will pursue professional licensure and/or participate in advanced study.
  3. Graduates will pursue leadership positions in their communities and professions.

Curriculum

Credit hours required for graduation: 125.

Credit
Hours
First Year First Semester
CE 160L Civil Engineering Design 3
CHEM 121 General Chemistry I (1) 3
CHEM 123L General Chemistry I Laboratory (1) 1
ENGL 110
(or ENGL 112;
or ENGL 113)
Accelerated Composition 
(or Composition II; 
or Enhanced Composition) (1)
3
MATH 162 Calculus I (1) 4
14
  Second Semester  
BIOL 110
-or-
EPS 101
Biology Non-Majors

How the Earth Works-An Introduction to Geology
3
CS 151L Computer Programming Fundamentals for Non-Majors 3
ENGL 120 Composition III (1) 3
MATH 163 Calculus II 4
PHYC 160  General Physics (1) 3
16
Second Year First Semester  
CE 202 Engineering Statics 3
CE 283 Surveying and Geomatics 3
ECON 105
-or-
ECON 106
Introductory Macroeconomics (1)

Introductory Microeconomics (1)
3
MATH 264 Calculus III 4
PHYC 161 General Physics
3
16
  Second Semester  
ENG 301 Fundamentals of Engineering: Dynamics 1
ENG 302 Fundamentals of Engineering: Electronic Circuits 1
ENG 303 Fundamentals of Engineering: Thermodynamics 1
ENGL 219 Technical and Professional Writing (1) 3
MATH **316 Applied Ordinary Differential Equations  3
MGMT 202 Principles of Financial Accounting 3
Core Humanities Elective (1) 3
15
Third Year First Semester  
CE 302 Mechanics of Materials 3
CE 305 Infrastructure Materials Science 4
CE 350 Engineering Economy 3
CE 376 Cost Estimating 3
Core Humanities Elective 3
16
  Second Semester  
CE 308 Structural Analysis 3
CE 360 Soil Mechanics 4
CE 370 Construction Methods and Equipment 3
CE 377 Construction Scheduling 3
STAT **345 Elements of Mathematical Statistics and Probability Theory 3
16
Fourth Year (2) First Semester  
CE 331 Fluid Mechanics 4
CE 477 Project Controls 3
Technical Elective (3) 6
Core Second Language Elective (1) 3
16
  Second Semester  
CE 473 Construction Law
3
CE 475 Construction Safety
3
CE 495 Construction Internship 1
CE 499 Design of Civil Engineering Systems 3
Core Fine Arts Elective (1) 3
Core Social/Behavioral Science Elective (1) 3
16


Notes:

(1) Specific Core Curriculum requirements.
(2) Students must take the Fundamentals of Engineering Exam prior to graduation.
(3) See advisor for a list of approved technical electives.


Bachelor of Science in Construction Management

The Bachelor of Science in Construction Management (B.S.C.M.) program is accredited by the American Council for Construction Education http://www.acce-hq.org/. With the proper selection of management electives, students completing this program can earn a minor in Management from the Anderson School of Management.

Outcomes

Graduates of the department’s construction management program must appreciate the technical components and understand the managerial aspects of construction projects.

1.  We educate students to apply methods to successfully and safely manage construction projects. Graduates achieve competence in construction topics, including:

  • Reading and understanding construction documents,
  • Using construction documents to develop construction estimates and schedules,
  • Using schedules, estimates and construction documents to safely control projects.

2.  Students demonstrate an ability to lead through motivating others and applying appropriate technical skills to solve construction management problems. Graduates:

  • Develop a breadth of technical skills to communicate across boundaries,
  • Learn to work effectively in teams,
  • Develop action plans to work within project constraints.

3.  Students develop skills in critical thinking and innovation recognizing the need for continuously learning new skills and competencies. Graduates:

  • Utilize online and library resources,
  • Critically assess current technical documents,
  • Develop an ability to apply technology to solve construction problems.

4.  Students learn to employ effective communication skills to deal respectfully and ethically with others. Graduates are:

  • Effective at oral communications,
  • Effective in written communications,
  • Effective at Internet-based communications: online/electronic/email.

Minor Study Requirements

Students may earn a minor in Construction Management by completing the following courses with a grade of "C-" or better: CE 350 or MGMT 326, CE 372 and MGMT 300 or 362, plus three courses from CE 376, 377, 473, 474, 475, or 477.

Curriculum 

Credit hours required for graduation: 123.

Credit
Hours
First Year First Semester
CE 130 Construction Detailing (2) 3
ECON 105
-or- 
ECON 106
Introductory Macroeconomics (1)

Introductory Microeconomics (1)
3
ENGL 110
(or ENGL 112;
or ENGL 113)
Accelerated Composition 
(or Composition II; 
or Enhanced Composition) (1)
3
EPS 101 How the Earth Works–An Introduction to Geology 3
MATH 123 Trigonometry 3
    15
  Second Semester  
CE 160L Civil Engineering Design 3
CE 171 Construction Materials and Techniques (2) 3
ENGL 120 Composition III (1) 3
MATH 180 Elements of Calculus I 3
  Core Humanities Elective (1) 3
    15
Second Year First Semester  
CE 279 Mechanical Electrical Systems Construction 3
CHEM 121 General Chemistry I 3
CHEM 123L General Chemistry I Laboratory 1
CS 150L Computing for Business Students 3
PHYC 151 General Physics (1) 3
STAT 145 Introduction to Statistics 3
    16
  Second Semester  
CE 283 Surveying and Geomatics 3
CE 371 Structures for Construction 3
CJ 130 Public Speaking 3
ENGL 219 Technical and Professional Writing (1) 3
MGMT 202 Principles of Financial Accounting 3
    15
Third Year First Semester  
CE 305 Infrastructure Materials Science 4
CE 350 Engineering Economy 3
CE 376 Cost Estimating 3
MGMT 303 Managerial Accounting 3
Core Fine Arts Elective (1) 3
    16
  Second Semester  
CE 370 Construction Methods and Equipment 3
CE 377 Construction Scheduling 3
MGMT 310 Legal Issues for Managers 3
  Core Humanities Elective (1) 3
  Core Second Language Elective (1) 3
    15
Fourth Year First Semester (4)  
CE 474 Principles of Written Construction Documents 3
CE 477 Project Controls 3
CE 478 Design of Temporary Support Structures 3
CE 495 Construction Internship 1
MGMT 300 Operations Management 3
  Core Social/Behavioral Sciences Elective (1) 3
    16
  Second Semester  
CE 473 Construction Law 3
CE 475 Construction Safety 3
CE 497L Design Construction Integration 3
  Construction Elective (3) 3
  MGMT Elective (3) 3
    15


Notes:

(1) Core Curriculum electives from approved lists.
(2) Course may be taken at Central New Mexico Community College.
(3) See Department for approved Const and MGMT electives. Approval of advisor required.
(4) Students must take the American Institute of Constructors (AIC) exam prior to graduation.


Policies on Academic Progress

The following policies apply to all students who have been admitted to the Civil, Construction, and Environmental Engineering department:

  1. Students must complete all mathematics, science and engineering courses required for the degree in civil and construction engineering and construction management with a grade of "C-" or better.
  2. No student may enroll in a course in the Civil, Construction, and Environmental Engineering department without first earning a grade of "C-" or above in all prerequisites for the course.
  3. Students must complete a minimum of 24 credit hours of work applicable to the degree after admission to the Civil, Construction, and Environmental Engineering department.

Students seeking exceptions to these policies are required to obtain written permission from the department chairperson.

Cooperative Education Program

The Department of Civil, Construction, and Environmental Engineering offers a cooperative education program that alternates classroom study with a planned program of related work experience. Additional information may be obtained from the University of New Mexico’s Career Services Office.


Graduation with Honors

Academic excellence in undergraduate studies can be recognized by graduation with Departmental Honors or Baccalaureate Honors. Information about Departmental honors is available from the CE Coordinator of Program Advisement. Baccalaureate Honors are automatically awarded based on specific criteria. More information on undergraduate honors can be obtained in the Undergraduate Program section of this Catalog.


Courses

CE 130. Construction Detailing. (3)



CE 160L. Civil Engineering Design. (3)



CE 171. Construction Materials and Techniques. (3)



CE 202. Engineering Statics. (3)



CE 279. Mechanical Electrical Systems Construction. (3)



CE 283. Surveying and Geomatics. (3)



CE 291. Lower Division Special Topics in Civil Engineering. (1-3 to a maximum of 6 Δ)



CE 302. Mechanics of Materials. (3)



CE 305. Infrastructure Materials Science. (4)



CE 308. Structural Analysis. (3)



CE 331. Fluid Mechanics. (4)



CE **335. Environmental and Water Resources Engineering. (3)



CE 350. Engineering Economy. (3)



CE 360. Soil Mechanics. (4)



CE 370. Construction Methods and Equipment. (3)



CE 371. Structures for Construction. (3)



CE **372. Principles of Construction. (3)



CE 376. Cost Estimating. (3)



CE 377. Construction Scheduling. (3)



CE 382. Transportation Engineering. (3)



CE 409. Engineering Ethics. (1)



CE 410. Structural Design I. (3)



CE 411 / 511. Reinforced Concrete Design. (3)



CE 413 / 513. Timber and Masonry Design. (3)



CE 415. Civil Engineering Design Competition. (1 to a maximum of 3 Δ)



CE 424 / 524. Structural Design in Metals. (3)



CE 431 / 531. Physical-Chemical Water and Wastewater Treatment. (3)



CE 433 / 533. Environmental Microbiology. (3)



CE 436 / 536. Biological Wastewater Treatment. (3)



CE 438 / 538. Sustainable Engineering. (3)



CE 440 / 540. Design of Hydraulic Systems. (3)



CE 441 / 541. Hydrogeology. (3)



CE *442. Hydraulic Engineering and Hydrology. (3)



CE 452 / 552. Building Information Modelling. (3)



CE *455. Engineering Project Management. (3)



CE 462 / 562. Foundation Engineering I. (3)



CE 463. Earth Structures. (3)



CE 466. Pavement Design. (3)



CE 473 / 573. Construction Law. (3)



CE 474 / 574. Principles of Written Construction Documents. (3)



CE 475 / 575. Construction Safety. (3)



CE 477 / 577. Project Controls. (3)



CE 478 / 578. Design of Temporary Support Structures. (3)



CE 481 / 581. Urban Transportation Planning. (3)



CE 482 / 582. Highway and Traffic Engineering. (3)



CE *491-*492. Special Topics in Civil Engineering. (1-3, 1-3 to a maximum of 6 Δ)



CE 493. Special Topics in Civil Engineering - Honors. (1-3 to a maximum of 6 Δ)



CE 494. Honors Seminar. (3 to a maximum of 6 Δ)



CE 495. Construction Internship. (1)



CE 497L. Design Construction Integration. (3)



CE 499. Design of Civil Engineering Systems. (3)



CE 501. Advanced Mechanics of Materials. (3)



CE 502. Finite Element Methods in Solid Mechanics. (3)



CE 504. Fracture Mechanics. (3)



CE 506. Prestressed Concrete. (3)



CE 511 / 411. Reinforced Concrete Design. (3)



CE 513 / 413. Timber and Masonry Design. (3)



CE 515. Design of Reinforced Concrete Structures with Fiber Reinforced Polymers. (3)



CE 518. Theory of Structural Stability. (3)



CE 521. Structural Dynamics and Earthquake Engineering. (3)



CE 524 / 424. Structural Design in Metals. (3)



CE 531 / 431. Physical-Chemical Water and Wastewater Treatment. (3)



CE 533 / 433. Environmental Microbiology. (3)



CE 534. Environmental Engineering Chemistry. (3)



CE 536 / 436. Biological Wastewater Treatment. (3)



CE 538 / 438. Sustainable Engineering. (3)



CE 539. Radioactive Waste Management. (3)



CE 540 / 440. Design of Hydraulic Systems. (3)



CE 541 / 441. Hydrogeology. (3)



CE 542. Intermediate Hydrology. (3)



CE 545. Open Channel Hydraulics. (3)



CE 547. GIS in Water Resources Engineering. (3)



CE 548. Fuzzy Logic and Applications. (3)



CE 549. Vadose Zone Hydrology. (3)



CE 551. Problems. (1-3 to a maximum of 6 Δ)



CE 552 / 452. Building Information Modelling. (3)



CE 556. Soils in Construction. (3)



CE 557. Decision Making for Civil Infrastructure Systems. (3)



CE 558. Construction Materials. (3)



CE 562 / 462. Foundation Engineering I. (3)



CE 565. Soil Behavior. (3)



CE 566. Pavement Design. (3)



CE 567. Foundation Engineering II. (3)



CE 568. Geotechnical Earthquake Engineering. (3)



CE 570. Simulation and Design of Construction Operations. (3)



CE 571. Sustainable Design and Construction. (3)



CE 573 / 473. Construction Law. (3)



CE 574 / 474. Principles of Written Construction Documents. (3)



CE 575 / 475. Construction Safety. (3)



CE 576. Project Delivery Systems. (3)



CE 577 / 477. Project Controls. (3)



CE 578 / 478. Design of Temporary Support Structures. (3)



CE 581 / 481. Urban Transportation Planning. (3)



CE 582 / 482. Highway and Traffic Engineering. (3)



CE 588. Master's Project. (1-6)



CE 598. Selected Topics. (1-3 to a maximum of 6 Δ)



CE 599. Master's Thesis. (1-6, no limit Δ)



CE 650. Research. (1-6 to a maximum of 12 Δ)



CE 691. Graduate Seminar. (1 to a maximum of 4 Δ)



CE 699. Dissertation. (3-12, no limit Δ)



[]

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