Administered by the Department of Civil, Construction and Environmental Engineering
The curriculum in construction engineering, leading to a bachelor of science degree can be referenced here: http://catalog.iastate.edu/collegeofengineering/constructionengineering/#curriculumtext. The Construction Engineering program is accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org.
Program educational objectives: By three to five years after graduation, graduates of the construction engineering program will have:
- Pursued successful careers and expertise in construction engineering, or a related profession.
- Collaborated effectively on multi-disciplinary teams to address the needs of society and the environment.
- Pursued lifelong learning, professional development, and licensure as appropriate for their career goals.
Students who successfully complete the curriculum will be prepared for entry into the field or for further study at the graduate level in construction engineering or related fields of study, such as law, business and other engineering disciplines.
Construction engineers need to possess a strong fundamental knowledge of engineering design and management principles, including knowledge of business procedures, economics, and human behavior. Graduates of this curriculum may expect to engage in design of temporary structures, coordination of project design, systems design, cost estimating, planning and scheduling, company and project management, materials procurement, equipment selection, and cost control. With the emergence of integrated project delivery methods such as design-build construction, the role of the construction engineer is expanding the need for trained professionals that understand both aspects of the project delivery environment. The curriculum offers opportunities to study emphases concerned with building, heavy, mechanical, or electrical construction. The process of construction involves the organization, administration, and coordination of labor resource requirements, temporary and permanent materials, equipment, supplies and utilities, money, technology and methods. These must be integrated in the most efficient manner possible to complete construction projects on schedule, within the budget, and according to the standards of quality and performance specified by the project owner or designer. The curriculum blends engineering, management and business sciences into a study of the processes of construction whereby designer’s plans and specifications are converted into physical structures and facilities.
The curriculum develops the ability of students to be team workers, creative thinkers, and effective communicators. This is achieved by encouraging students to:
- interact with practicing professionals
- gain work experience during summer jobs, internship, and cooperative education assignments that emphasize the knowledge required of construction engineers
- develop leadership skills by participating in student organizations
- develop, analyze, and interpret alternative solutions to open-ended problems
- study abroad
The construction industry is becoming increasingly global. Courses in humanities, social sciences, U.S. diversity, and international perspectives are included in the curriculum to broaden the student’s perspective of the work environment. In addition, the department has several exchange program opportunities for students to participate in study abroad programs.
Qualified construction engineering students within 30 credits of completing their degree may apply for concurrent enrollment in the Graduate College. See Civil Engineering Graduate Study for more information.
Curriculum in Construction Engineering
Administered by the Department of Civil, Construction and Environmental Engineering; leading to the degree bachelor of science.
Total credits required: Building Option -127.0, Heavy Option - 126.0, Electrical - 127.0, Mechanical - 127.0 cr.
The Construction Engineering program requires a grade of a C or better for any transfer credit course that is applied to the degree program (but will not be calculated into the ISU cumulative GPA, Basic Program GPA or Core GPA). Note: Department does not allow Pass/Not Pass credits to be used to meet graduation requirements for either required or elective courses.
International Perspectives: 3 cr.1
U.S. Diversity: 3 cr.1
Communication Proficiency/Library requirements:
ENGL 150 | Critical Thinking and Communication (Must have a C or better in this course) | 3 |
ENGL 250 | Written, Oral, Visual, and Electronic Composition (Must have a C or better in this course) | 3 |
LIB 160 | Information Literacy | 1 |
Business Communication Elective: one course of the following with a minimum grade of C. | 3 | |
Business Communication | ||
Proposal and Report Writing | ||
Technical Communication | ||
Total Credits | 10 |
Social Sciences and Humanities: 12 cr.
One of the following | 3 | |
Introduction to Psychology | ||
Developmental Psychology | ||
Psychology of the Workplace | ||
Social Psychology | ||
Introduction to Sociology | ||
ECON 101 | Principles of Microeconomics | 3 |
or ECON 102 | Principles of Macroeconomics | |
International Perspectives 1 | 3 | |
U.S. Diversity 1 | 3 | |
Total Credits | 12 |
Basic Program: 27 cr.3
Minimum GPA of 2.00 required for this set of courses to graduate, (please note that transfer course grades will not be calculated into the Basic Program GPA).3
CHEM 167 | General Chemistry for Engineering Students | 4 |
or CHEM 177 | General Chemistry I | |
ENGL 150 | Critical Thinking and Communication (Must have a C or better in this course) | 3 |
ENGL 250 | Written, Oral, Visual, and Electronic Composition (Must have a C or better in this course) | 3 |
ENGR 101 | Engineering Orientation | R |
C E 160 | Engineering Problems with Computational Laboratory 3 | 3 |
LIB 160 | Information Literacy | 1 |
MATH 165 | Calculus I | 4 |
MATH 166 | Calculus II | 4 |
PHYS 221 | Introduction to Classical Physics I | 5 |
Total Credits | 27 |
Math and Physical Science: 12 cr.
STAT 305 | Engineering Statistics | 3 |
or STAT 231 | Probability and Statistical Inference for Engineers | |
MATH 267 | Elementary Differential Equations and Laplace Transforms | 4 |
PHYS 222 | Introduction to Classical Physics II | 5 |
Total Credits | 12 |
Construction Engineering Core: 27 cr. (B, H); 28 cr. (E, M). Minimum 2.00 GPA for this set of courses to graduate (please note that transfer course grades will not be calculated into the Core GPA):
E M 274 | Engineering Statics | 3 |
E M 324 | Mechanics of Materials | 3 |
CON E 422 | Construction Cost Estimating and Cost Engineering | 3 |
CON E 441 | Construction Planning, Scheduling, and Control | 3 |
E M 378 | Mechanics of Fluids | 3 |
C E 332 | Structural Analysis I | 3 |
See options for remaining core courses | 9-10 | |
Total Credits | 27-28 |
Select remaining courses from one of the following options:
Building Option: Remaining Core courses 9 cr.
C E 360 | Geotechnical Engineering | 3 |
CON E 322 | Construction Equipment and Heavy Construction Methods | 3 |
CON E 340 | Concrete and Steel Construction | 3 |
Total Credits | 9 |
Building Option: Remaining courses 17 cr.
C E 333 | Structural Steel Design I | 3 |
C E 334 | Reinforced Concrete Design I | 3 |
C E 383 | Design of Portland Cement Concrete | 1 |
CON E 352 | Mechanical Systems in Buildings | 3 |
CON E 353 | Electrical Systems in Buildings | 3 |
E M 327 | Mechanics of Materials Laboratory | 1 |
Engineering Topics Elective 2 | 3 | |
Total Credits | 17 |
Heavy Option: Remaining Core courses 9 cr.
C E 360 | Geotechnical Engineering | 3 |
CON E 322 | Construction Equipment and Heavy Construction Methods | 3 |
CON E 340 | Concrete and Steel Construction | 3 |
Total Credits | 9 |
Heavy Option: Remaining courses 16 cr.
C E 333 | Structural Steel Design I | 3 |
C E 334 | Reinforced Concrete Design I | 3 |
C E 382 | Design of Concretes | 3 |
E M 327 | Mechanics of Materials Laboratory | 1 |
Engineering Topics Electives | 6 | |
Engineering Topics Electives - A (Student must complete at least 3 credits from List A) | ||
Bidding Construction Projects I: Heavy and Highway | ||
Bidding Construction Projects II: Heavy and Highway | ||
Special Topics Construction Engineering and Mgt.: Project Controls | ||
Special Topics Construction Engineering and Mgt.: Computer Applications for Project Controls | ||
Design of Construction Systems | ||
Special Topics Construction Engineering and Mgt.: Highway and Heavy Construction | ||
Engineering Topics Electives - B | ||
Preconstruction Project Engineering and Management | ||
Construction Project Engineering and Management | ||
Construction Finance and Business Management | ||
Principles of Transportation Engineering | ||
Engineering Hydrology and Hydraulics | ||
Land Surveying | ||
Foundation Engineering | ||
Any other C E 500 level course | ||
Total Credits | 16 |
Electrical Option: Remaining Core courses 10 cr.
E E 230 | Electronic Circuits and Systems | 4 |
E E 303 | Energy Systems and Power Electronics | 3 |
E E 456 | Power System Analysis I | 3 |
Total Credits | 10 |
Electrical Option: Remaining courses 16 cr.
CON E 352 | Mechanical Systems in Buildings | 3 |
CON E 353 | Electrical Systems in Buildings | 3 |
E E 201 | Electric Circuits | 4 |
E E 457 | Power System Analysis II | 3 |
Engineering Topics Elective 2 | 3 | |
Total Credits | 16 |
Mechanical Option: Remaining Core courses 10 cr.
M E 231 | Engineering Thermodynamics I | 3 |
M E 436 | Heat Transfer | 4 |
M E 441 | Fundamentals of Heating, Ventilating, and Air Conditioning | 3 |
Total Credits | 10 |
Mechanical Option: Remaining courses 16 cr.
CON E 352 | Mechanical Systems in Buildings | 3 |
CON E 353 | Electrical Systems in Buildings | 3 |
E E 442 | Introduction to Circuits and Instruments | 2 |
E E 448 | Introduction to AC Circuits and Motors | 2 |
M E 442 | Heating and Air Conditioning Design | 3 |
Engineering Topics Elective 2 | 3 | |
Total Credits | 16 |
Additional Required Courses: 32 cr.
CON E 121 | Cornerstone Learning Community: Orientation to Academic Life | 1 |
CON E 122 | Cornerstone Learning Community: Orientation to Professional Life | 1 |
C E 170 | Graphics for Civil Engineering | 2 |
C E 111 | Fundamentals of Surveying I | 3 |
CON E 222 | Contractor Organization and Management of Construction | 3 |
I E 305 | Engineering Economic Analysis | 3 |
CON E 241 | Construction Materials and Methods | 3 |
CON E 251 | Mechanical/Electrical Materials and Methods | 1 |
Law Elective | 3 | |
Engineering Law | ||
Legal Environment of Business | ||
CON E 487 | Construction Engineering Design I | 3 |
CON E 488 | Construction Engineering Design II | 3 |
Business Communication Elective (minimum grade of C) | 3 | |
Business Communication | ||
Proposal and Report Writing | ||
Technical Communication | ||
Complete one course from Math or Stat Elective 2 | 3 | |
Total Credits | 32 |
Co-op/Internships - Optional
- These university requirements will add to the minimum credits of the program unless the university-approved courses are also approved by the department to meet other course requirements within the degree program. U.S. diversity and international perspectives courses may not be taken Pass/Not Pass.
- Choose from department approved list.
- See Basic Program for Engineering Curricula for accepted substitutions for curriculum designated courses in the Basic Program https://www.engineering.iastate.edu/classification/students/basic-program/
Construction Engineering, B.S. building emphasis
First Year | |||
---|---|---|---|
Fall | Credits | Spring | Credits |
ENGR 101 | 0 | C E 170 | 2 |
C E 160 | 3 | MATH 166 | 4 |
MATH 165 | 4 | PHYS 221 | 5 |
CHEM 167 | 4 | ENGL 250 | 3 |
ENGL 150 | 3 | CON E 122 | 1 |
CON E 121 | 1 | LIB 160 | 1 |
15 | 16 | ||
Second Year | |||
Fall | Credits | Spring | Credits |
CON E 222 | 3 | CON E 241 | 3 |
C E 111 | 3 | CON E 251 | 1 |
E M 274 | 3 | PHYS 222 | 5 |
Math or Stat Elective | 3 | MATH 267 | 4 |
Economics Elective | 3 | E M 324 | 3 |
15 | 16 | ||
Third Year | |||
Fall | Credits | Spring | Credits |
CON E 353 | 3 | CON E 340 | 3 |
E M 378 | 3 | CON E 322 | 3 |
Statistics Elective | 3 | C E 332 | 3 |
CON E 352 | 3 | C E 360 | 3 |
I E 305 | 3 | E M 327 | 1 |
SSH Elective (Psych 101/230/280 or Soc 134) | 3 | Law Elective (ConE 380 or Acct 215) | 3 |
18 | 16 | ||
Fourth Year | |||
Fall | Credits | Spring | Credits |
CON E 422 | 3 | CON E 487 | 3 |
CON E 441 | 3 | CON E 488 | 3 |
C E 383 | 1 | C E 334 | 3 |
C E 333 | 3 | SSH Elective (US Diversity) | 3 |
SSH Elective (Intl Perspective) | 3 | Business Comm Elective (ENGL 302 or 309 or 314) | 3 |
Engr Topics Elective | 3 | ||
16 | 15 |
Construction Engineering, B.S. electrical emphasis
First Year | |||
---|---|---|---|
Fall | Credits | Spring | Credits |
ENGR 101 | 0 | C E 170 | 2 |
C E 160 | 3 | MATH 166 | 4 |
MATH 165 | 4 | PHYS 221 | 5 |
CHEM 167 | 4 | ENGL 250 | 3 |
ENGL 150 | 3 | CON E 122 | 1 |
CON E 121 | 1 | LIB 160 | 1 |
15 | 16 | ||
Second Year | |||
Fall | Credits | Spring | Credits |
CON E 222 | 3 | CON E 241 | 3 |
C E 111 | 3 | CON E 251 | 1 |
PHYS 222 | 5 | MATH 267 | 4 |
MATH or STAT Elective | 3 | E M 274 | 3 |
SSH Elective (Psych 101/230/280 or Soc 134) | 3 | E E 201 | 4 |
17 | 15 | ||
Third Year | |||
Fall | Credits | Spring | Credits |
STAT 231 or 305 | 3 | E E 303 | 3 |
E M 324 | 3 | Law Elective (ConE 380 or Acct 215) | 3 |
CON E 352 | 3 | E E 230 | 4 |
CON E 353 | 3 | E M 378 | 3 |
I E 305 | 3 | ECON 101 or 102 | 3 |
15 | 16 | ||
Fourth Year | |||
Fall | Credits | Spring | Credits |
CON E 422 | 3 | CON E 487 | 3 |
CON E 441 | 3 | CON E 488 | 3 |
E E 456 | 3 | E E 457 | 3 |
C E 332 | 3 | SSH Elective (US Diversity) | 3 |
SSH Elective (Intl Perspective) | 3 | Business Comm Elective (ENGL 302 or 309 or 314) | 3 |
Engineering Topics Elective | 3 | ||
18 | 15 |
Construction Engineering, B.S. heavy/highway emphasis
First Year | |||
---|---|---|---|
Fall | Credits | Spring | Credits |
ENGR 101 | 0 | C E 170 | 2 |
C E 160 | 3 | MATH 166 | 4 |
MATH 165 | 4 | PHYS 221 | 5 |
CHEM 167 | 4 | ENGL 250 | 3 |
ENGL 150 | 3 | CON E 122 | 1 |
CON E 121 | 1 | LIB 160 | 1 |
15 | 16 | ||
Second Year | |||
Fall | Credits | Spring | Credits |
CON E 222 | 3 | CON E 241 | 3 |
C E 111 | 3 | CON E 251 | 1 |
PHYS 222 | 5 | E M 324 | 3 |
E M 274 | 3 | MATH 267 | 4 |
Math or Stat Elective | 3 | SSH Elective (PSYCH 101/230/250/280 or SOC 134) | 3 |
Economics Elective | 3 | ||
17 | 17 | ||
Third Year | |||
Fall | Credits | Spring | Credits |
CON E 322 | 3 | CON E 340 | 3 |
E M 378 | 3 | C E 360 | 3 |
I E 305 | 3 | C E 332 | 3 |
STAT 231 or 305 | 4-3 | E M 327 | 1 |
Engr Topics Elective | 3 | Law Elective (ConE 380 or Acct 215) | 3 |
Engr Topics Elective | 3 | ||
16-15 | 16 | ||
Fourth Year | |||
Fall | Credits | Spring | Credits |
CON E 422 | 3 | CON E 487 | 3 |
CON E 441 | 3 | CON E 488 | 3 |
C E 382 | 3 | C E 334 | 3 |
C E 333 | 3 | Business Comm Elective (ENGL 302 or 309 or 314) | 3 |
SSH Elective (Intl Perspective) | 3 | SSH Elective (US Diversity) | 3 |
15 | 15 |
Construction Engineering, B.S. mechanical emphasis
First Year | |||
---|---|---|---|
Fall | Credits | Spring | Credits |
ENGR 101 | 0 | C E 170 | 2 |
C E 160 | 3 | MATH 166 | 4 |
MATH 165 | 4 | PHYS 221 | 5 |
CHEM 167 | 4 | ENGL 250 | 3 |
ENGL 150 | 3 | CON E 122 | 1 |
CON E 121 | 1 | LIB 160 | 1 |
15 | 16 | ||
Second Year | |||
Fall | Credits | Spring | Credits |
CON E 222 | 3 | CON E 241 | 3 |
C E 111 | 3 | CON E 251 | 1 |
PHYS 222 | 5 | MATH 267 | 4 |
Math/Stat Elective | 3 | E M 274 | 3 |
SSH Elective (PSYCH 101/230/250/280 or SOC 134) | 3 | ||
STAT 231 or 305 | 4-3 | ||
14 | 18-17 | ||
Third Year | |||
Fall | Credits | Spring | Credits |
M E 231 | 3 | E E 442 | 2 |
CON E 352 | 3 | Law Elective (ConE 380 or ACCT 215) | 3 |
CON E 353 | 3 | E M 378 | 3 |
E M 324 | 3 | C E 332 | 3 |
I E 305 | 3 | International Perspective | 3 |
US Diversity | 3 | E E 448 | 2 |
18 | 16 | ||
Fourth Year | |||
Fall | Credits | Spring | Credits |
CON E 422 | 3 | CON E 487 | 3 |
CON E 441 | 3 | CON E 488 | 3 |
M E 436 | 4 | M E 442 | 3 |
M E 441 | 3 | Business Comm Elective (ENGL 302 or 309 or 314) | 3 |
Economics Elective | 3 | Engineering Topics Elective | 3 |
16 | 15 |
Graduate Study
An area of specialization in construction engineering and management is offered within the graduate program of the Department of Civil, Construction and Environmental Engineering. This specialization focuses on project management including and beyond the traditional iron triangle of scope, technical, and schedule to include context and financing, enabling project management of more complex projects. Three graduate degrees including, Master of Engineering (30 credits), Master of Science (30 credits), and Doctor of Philosophy (72 credits) are offered. The Master of Engineering degree is a coursework only option and the other degree programs require a research component at a level adjusted to the degree sought. All degrees are offered on-campus and some degrees may be completed off-campus through distance education. All degrees require C E 501, C E 502, C E 503, C E 505, and C E 594A. Course options include by are not limited to:
C E 501 | Preconstruction Project Engineering and Management | 3 |
C E 502 | Construction Project Engineering and Management | 3 |
C E 503 | Construction Finance and Business Management | 3 |
C E 505 | Design of Construction Systems | 3 |
C E 594A | Special Topics Construction Engineering and Mgt.: Planning and Scheduling | 3 |
C E 594L | Special Topics Construction Engineering and Mgt.: Advanced Building Construction Topics | 3 |
C E 594N | Special Topics Construction Engineering and Mgt.: Industrial Construction | 3 |
C E 594O | Special Topics Construction Engineering and Mgt.: Highway and Heavy Construction | 3 |
C E 594P | Special Topics Construction Engineering and Mgt.: Advanced Technologies | 3 |
Undergraduate students may also qualify for the concurrent bachelor of science/master of science (BS/MS) degree program. Courses are offered for minor work to students taking major work in other curricula or in interdepartmental programs. A graduate certificate is also available which requires 12 credits of coursework. Courses required for the certificate are C E 501, C E 502, and C E 503. For additional information see Civil Engineering, Graduate Programs, https://www.ccee.iastate.edu/academics/graduate/.
Courses
Courses primarily for undergraduates:
(0-2) Cr. 1. F.
Integration of first-year and transfer students into the engineering profession and the Construction Engineering program. Assignments and activities completed both individually and in learning teams involving teamwork, academic preparation, and study skills. Introduction to construction industry professionals. Teamwork topics include interdisciplinary teamwork, skills for academic success, diversity issues and leadership. Introduction to organization of program, department, college, and university. Overview of faculty, staff, policies, procedures and resources.
(0-2) Cr. 1. S.
Continuation of CON E 121. Integration of first-year and transfer students into the engineering profession. Career preparation, professional ethics, construction research, leadership. Introduction to construction industry professionals including how they interact with engineers in other disciplines. Continued introduction to program, department, college, and university organization. Overview of faculty, staff, policies, procedures and resources.
(2-2) Cr. 3. F.S.
Prereq: Completion of basic program
Entry level course for construction engineering: integration of significant engineering and management issues related to construction company operations. Company organization and operations; construction and project administration; construction contracts; delivery systems; construction safety; contract documents.
(2-3) Cr. 3. F.S.
Prereq: Completion of basic program
Introduction to materials and methods of building construction and to construction drawings. Foundation, structural framing, floor, roof, and wall systems. Blueprint reading and quantity takeoff techniques.
(0-3) Cr. 1. F.S.
Prereq: Credit or enrollment in CON E 241
Introduction to the materials and methods for mechanical and electrical construction systems and drawings. HVAC, water and waste water, power distribution, lighting, and fire protection. Blueprint reading and quantity takeoff.
(2-2) Cr. 3. F.S.
Prereq: PHYS 222 and credit or enrollment in CON E 352; or permission of instructor
Comprehensive coverage of building electrical systems including power, lighting, fire alarm, security and communications. Analysis techniques and design principles for each system. Required comprehensive design project for a major building project.
Cr. arr. F.
Prereq: CON E 352 or permission of instructor
Energy performance of buildings, building shells, HVAC, electrical and other building systems. Analysis and evaluation of building performance, energy efficiency, environmental quality, first costs, and operating costs. Strategies to exceed energy code requirements through the ASHRAE Standard 90.1.
(3-0) Cr. 3. F.S.
Prereq: Junior classification
Introduction to law and judicial procedure as they relate to the practicing engineer. Contracts, professional liability, professional ethics, licensing, bidding procedures, intellectual property, products liability, risk analysis. Emphasis on development of critical thinking process, abstract problem analysis and evaluation.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Team development of construction process designs and cost estimates for transportation construction projects under closely simulated conditions. Examine project sites, consult with construction industry mentors, obtain subcontractor and supplier quotations, and submit bids.
(0-3) Cr. 1. F.S.
Prereq: Permission of the instructor
Team development of construction process designs and cost estimates for transportation construction projects under closely simulated conditions. Examine project sites, consult with construction industry mentors, obtain subcontractor and supplier quotations, and submit bids.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Team development of construction process designs and cost estimates for transportation construction projects under closely simulated conditions. Examine project sites, consult with construction industry mentors, obtain subcontractor and supplier quotations, and submit bids.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Team development of construction process designs and cost estimates for transportation construction projects under closely simulated conditions. Examine project sites, consult with construction industry mentors, obtain subcontractor and supplier quotations, and submit bids.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Team development of construction process designs and cost estimates for transportation construction projects under closely simulated conditions. Examine project sites, consult with construction industry mentors, obtain subcontractor and supplier quotations, and submit bids.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Team development of construction process designs and cost estimates for transportation construction projects under closely simulated conditions. Examine project sites, consult with construction industry mentors, obtain subcontractor and supplier quotations, and submit bids.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Team development of construction process designs and cost estimates for transportation construction projects under closely simulated conditions. Examine project sites, consult with construction industry mentors, obtain subcontractor and supplier quotations, and submit bids.
Cr. R. Repeatable. SS.
Prereq: Permission of department and Engineering Career Services
Professional work period of at least 10 weeks during the summer. Students must register for this course prior to commencing work.
Offered on a satisfactory-fail basis only.
Cr. R. Repeatable. F.S.
Prereq: Permission of department and Engineering Career Services
Professional work period. One semester per academic or calendar year. Students must register for this course before commencing work.
Offered on a satisfactory-fail basis only.
(2-2) Cr. 3. F.S.
Prereq: CON E 241, CON E 251, I E 305
Conceptual and detailed cost estimating. Theory and practice of estimating construction costs of materials, labor, equipment, contingency, overhead and markup. Estimating competencies and bid ethics. Electronic quantity take off and pricing methods. Assemblies costs, unit costs, production rates. Analysis of project profitability, cost analysis and cost control methods. Value engineering. Life cycle cost analysis.
(2-2) Cr. 3. F.S.
Prereq: Credit or enrollment in CON E 422
Integration of previous construction coursework into the planning, scheduling, and management of time, costs, and other resources. Emphasis on preparation and analysis of network schedules. Comprehensive planning and scheduling project. Computer project management applications.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Similar to CON E 381, except students with previous experience attempt projects with larger scope or lead students with less experience.
(0-3) Cr. 1. F.S.
Prereq: Permission of the instructor
Similar to CON E 381, except students with previous experience attempt projects with larger scope or lead students with less experience.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Similar to CON E 381, except students with previous experience attempt projects with larger scope or lead students with less experience.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Similar to CON E 381, except students with previous experience attempt projects with larger scope or lead students with less experience.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Similar to CON E 381, except students with previous experience attempt projects with larger scope or lead students with less experience.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Similar to CON E 381, except students with previous experience attempt projects with larger scope or lead students with less experience.
(0-3) Cr. 1.
Prereq: Permission of the instructor
Similar to CON E 381, except students with previous experience attempt projects with larger scope or lead students with less experience.
(2-2) Cr. 3. F.S.
Prereq: CON E 340 (B, H), CON E 352 (B, E, M), CON E 353 (B, E, M), CON E 422, CON E 441. Student must be within two semesters of graduation
The integrated delivery of project services as a team, including preliminary engineering design process, constructability review, interaction with the client, identification of engineering problems, developments of a proposal, identification of design criteria, cost estimating, planning and scheduling, application of codes and standards, development of feasible alternatives, selection of best alternative, and delivery of oral presentations.
Cr. 1-5. Repeatable. F.S.SS.
Prereq: Permission of instructor
Individual study in any phase of construction engineering. Pre-enrollment contract required.