Undergraduate Course Catalog 2006-2007
College of Engineering and Physical Sciences
» http://www.ceps.unh.edu
Civil Engineering (CIE)
» http://www.unh.edu/civil-engineering/
» Click to view course offerings
Chairperson: Jean Benoit
Professor: Jean Benoit, Michael R. Collins, Pedro A. De Alba, David L. Gress, Nancy E. Kinner, James P. Malley
Research Professor: T. Taylor Eighmy
Associate Professor: Thomas P. Ballestero, Raymond A. Cook, Charles H. Goodspeed, Robert M. Henry, Jennifer M. Jacobs
Research Associate Professor: Kevin H. Gardner
Assistant Professor: Erin S. Bell, Jo S. Daniel
Research Assistant Professor: Jenna R. Jambeck, Jeffrey S. Melton
Civil engineering involves the planning, design, and construction of
public works: buildings, bridges, roads, dams, water transmission
systems, water treatment systems, tunnels, and more. These facilities
must provide efficient service, be cost-effective, and be compatible
with the environment. Moreover, civil engineers work under a code of
ethics in which their primary, overriding responsibility is to uphold
the public’s trust by working to plan, design, build, and restore safe
and environmentally responsible public works.
Civil engineers work as private consultants and for government agencies
in a wide variety of indoor and outdoor settings around the world.
There is a strong and constant market for civil engineers due to the
demands placed on the profession to construct, maintain, and repair the
infrastructure (e.g., bridges, buildings, roads, water transmission
lines, water treatment plants, and power plants).
As civil engineering is such a broad field, it is traditionally divided
into several subdisciplines. At the University of New Hampshire, five
are offered: civil engineering materials, environmental
engineering, geotechnical engineering, structural engineering, and
water resources engineering. Civil engineering majors may choose the
subdiscipline in which to focus their studies during their senior year.
Additionally, the College of Engineering and Physical Sciences, through
the Departments of Civil Engineering and Chemical engineering, offers a
B.S. in environmental engineering (ENE) which is a major for students
who choose to specifically focus their attention solely in that area.
(Students who are interested in environmental engineering but who also
want a broader or more traditional civil engineering focus should
pursue the civil engineering major and elect environmental engineering
courses in their senior year.) Students may readily transfer between
the civil engineering (CIE) and ENE programs within the first two
semesters. Both the B.S. in civil engineering and the B.S. in
environmental engineering provide a firm base in mathematics, science,
and engineering and all majors are expected to develop excellent
communication and computer skills. Graduates are prepared to enter the
profession and to pursue advanced study. Because of the broad technical
background attained, some graduates also successfully pursue further
education in business, law, and medicine.
Mission
The mission of the Department of Civil Engineering is to pursue and
disseminate knowledge through teaching, research, and public
service. As part of its teaching mission, the department provides
rigorous, yet flexible, undergraduate and graduate education for both
traditional and nontraditional students through classical and creative
instruction in the classroom, laboratory, and field. While preparing
students for the profession, the department offers an education in
civil engineering that includes working in multidisciplinary teams that
critically analyze and formulate solutions to civil engineering
problems and apply engineering principles that provide social,
economic, and environmental benefits to the public. The department
encourages in its students a lifelong desire to keep abreast of new
developments in the field and teaches them the skills necessary to
continue learning. As part of its research mission, the department
maintains a rigorous multidisciplinary program of scholarship advancing
the state of the art in civil engineering. As part of its mission in
public service, the department enhances the quality of life for people,
especially in New England and specifically New Hampshire, by providing
expert services; advancing and transferring knowledge and technology;
and serving as a resource for information.
Educational Objectives
In accordance with its University, college, and department missions,
the faculty of the Department of Civil Engineering has established
clear objectives for students to help them become successful
professionals after graduation. To assist graduates to become
practicing civil engineers, the program helps students achieve a basic
competence in math, science, and engineering principles; learn how to
apply this knowledge to solve engineering problems; achieve a working
knowledge in the basic civil engineering areas of structural
engineering, geotechnical engineering, civil engineering materials,
water resources, environmental engineering, and project engineering;
and extend their knowledge in one or more of these areas. As part of
this process, students learn how to critically analyze and design
equipment, structures, systems, or processes to meet desired needs; to
use current, and be able to independently learn new, engineering
software. Engineers also need to be effective communicators.
Engineering students learn how to communicate and defend ideas in
technical reports and correspondence; how to speak before a group and
convey information to technical and non-technical audiences; and how to
create and effectively use graphics in support of a presentation or
report. Students also learn how to work effectively as good team
players who are also capable of being members of multidisciplinary
teams.
As part of finding engineering solutions, students learn to locate,
compile, and use existing information; design and perform experiments
to gather new information; critically analyze information; and draw
conclusions. Due to the nature of civil engineering efforts which
involve the public, public safety, and significant financing, it is
imperative that graduates become good engineering citizens. Students
develop an awareness of the interaction between engineering practice
and social, economic, and environmental issues; the importance of the
ASCE Code of Ethics; an awareness of contemporary issues in their
interaction with civil engineering practice; and the importance of
broadening their education by being familiar with topics outside of the
math, science, and engineering areas. Civil engineers are also
professionals who are often licensed practitioners. Students are
prepared to take the Fundamentals of Engineering examination (which is
required for professional licensure), understand the need for lifelong
learning and actively participate in organizations such as ASCE, SWE,
SWB, Tau Beta Pi, and the Order of the Engineer.
Bachelor of Science in Civil Engineering
Matriculating students should have strong aptitudes in mathematics and
science along with imagination, spatial and graphic abilities,
communication skills, and creativity. Students then follow a four-year
program which conforms to the guidelines of, and is accredited by, the
Engineering Accreditation Commission of ABET, 111 Market Place, Suite
1050, Baltimore, MD 21202-4012, telephone (410) 347-7700.
The first two years of the program provide the necessary technical
knowledge in mathematics, chemistry, and physics, while introducing and
developing civil engineering problem solving techniques. The junior
year provides courses in each of the civil engineering subdisciplines
providing students with skills in each and allowing students to
determine which they wish to pursue further. The senior year is
flexible, allowing students to choose where to focus attention by
selecting from more than thirty elective courses in civil and
environmental engineering.
The required curriculum includes seven writing intensive courses
thereby not only satisfying but exceeding the University’s writing
requirement. (See University Academic Requirements.)
Electives
Approximately one third of the major’s total credits and more than half
of the senior-level courses are elected by the student. Of these,
there are general education electives required by the University and
other electives required by the department in order to satisfy
departmental objectives and accreditation requirements.
1. The General Education Program is described in
University Academic Requirements. Courses required by the civil
engineering major fulfill the Group 1 through Group 3 general education
requirements. Therefore, students select electives to satisfy the Group
4 through Group 8 courses—one elective per group.
2. The civil engineering major also requires students
to select one math and basic sciences elective. A list of courses that
fulfill this elective is available from the department.
3. In the senior year, students take four courses
specific to civil engineering subdisciplines, and a senior science
elective. Students can use these electives to focus on a particular
civil engineering area or can acquire a broader perspective by taking
courses in a variety of areas. At least one of these four elective
courses must also qualify as a civil engineering design elective, and
no more than three courses may be taken in one area. Lists of courses
that fulfill these electives are available from the department.
Additional program policies and requirements
1. CIE and ENE 600- and 700-level courses are
intended for CIE and ENE majors only. All others may enroll in these
courses only with the permission of the instructor and may take no more
than 20 credits of these courses.
2. To enter the required 600-level courses in the junior year, students:
a. must have completed CIE 525, CIE 526, MATH 425, PHYS 407, and CHEM 405 or CHEM 403,
b. must have achieved an overall grade point average of 2.00 or greater for these courses, and
c. must attain a grade of C or better in each of CIE 525 and CIE 526.
3. To transfer into the civil engineering major, a student must:
a. have an overall grade point average of 2.30 or greater;
b. have completed 16 credits or more of MATH, PHYS, CHEM, CIE, and ENE courses;
c. have an overall grade point average of 2.00 or
greater for all MATH, PHYS, CHEM, CIE, and ENE courses taken to date;
and
d. have an overall grade point average of 2.50 or
greater for 16 credits of the MATH, PHYS, CHEM, CIE, and ENE courses
taken to date.
4. Students who are transferring into the civil engineering major may receive:
a. a maximum of 20 credits for CIE and ENE 600- and 700-level coursework taken prior to the transfer, and
b. credit only for CIE and ENE 600- and 700-level
courses taken prior to the transfer in which the student has received a
grade of C- or better.
5. To continue as a civil engineering major, a student may not:
a. repeat more than two CIE or ENE courses,
b. achieve a semester grade point average lower than 2.00 for each of three consecutive semesters, and
c. achieve a cumulative grade point average of less than 2.00 for CIE and ENE courses in any three semesters.
6. To graduate with a bachelor of science in civil engineering, a student must:
a. earn 132 or more credits,
b. achieve credit for the civil engineering program’s major and elective courses,
c. satisfy the University’s general education requirements,
d. satisfy the University’s writing intensive course requirements,
e. earn a cumulative grade point average of 2.00 or better for all courses, and
f. earn a cumulative grade point average of 2.00 or better for all CIE and ENE courses.
First Year
| Abbreviation | Course Number | Title | Fall | Spring |
|---|---|---|---|---|
| CIE | 402 | Intro. to Civil Engineering | 3 | - |
| ENGL | 401 | First-Year Writing | 4 | - |
| TECH | 564 | Fundamentals of CAD | 3 | - |
| Elective (2) | general education requirement* | 4 | 4 | |
| CIE | 505 | Surveying and Mapping | - | 4 |
| MATH | 425 | Calculus I | - | 4 |
| PHYS | 407 | General Physics I | - | 4 |
| Total | 14 | 16 |
Sophomore Year
| Abbreviation | Course Number | Title | Fall | Spring |
|---|---|---|---|---|
| CIE | 525 | Statics | 3 | - |
| ENE | 520 | Environmental Pollution and Protection | 4 | - |
| ENGL | 502 | Technical Writing | 4 | - |
| MATH | 426 | Calculus II | 4 | - |
| PHYS | 408 | General Physics II | - | 4 |
| CHEM | 405 | General Chemistry | - | 4 |
| CIE | 526 | Strength of Materials | - | 3 |
| CIE | 533 | Project Engineering | - | 3 |
| MATH | 527 | Differential Equations with Linear Algebra | - | 4 |
| Elective (1) | general education requirement* | - | 4 | |
| Total | 19 | 18 |
Junior Year
| Abbreviation | Course Number | Title | Fall | Spring |
|---|---|---|---|---|
| CIE | 622 | Engineering Materials | 4 | - |
| CIE | 627 | Dynamics | 3 | - |
| CIE | 642 | Fluid Mechanics | 4 | - |
| MATH | 644 | Statistics for Engineers and Scientists | 4 | - |
| Elective (1) | math and basic sciences** | - | 4 | |
| CIE | 665 | Soil Mechanics | - | 4 |
| CIE | 681 | Classical Structural Analysis | - | 3 |
| ENE | 645 | Fundamental Aspects of Environmental Engineering | - | 4 |
| Elective (1) | general education requirement* | - | 4 | |
| Total | 19 | 15 |
Senior Year
| Abbreviation | Course Number | Title | Fall | Spring |
|---|---|---|---|---|
| CIE | 760 | Foundation Design I | 4 | - |
| CIE | 744 | Reinforced Concrete Design | 4 | - |
| CIE | 784 | Intro. to Project Planning and Design | 1 | - |
| Elective (1) | Civil Engineering** | 3 | - | |
| Elective (1) | senior science** | 3 | - | |
| CIE or ENE | 788 | Project Planning and Design | - | 3 |
| Elective (3) | civil engineering** | - | 9 | |
| Elective (1) | general education requirement* | - | 4 | |
| Total | 15 | 16 |
*See University Academic Requirements for general education requirements.
** Approved list available in the CIE office.
