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Department of Mechanical Engineering
Demitris A. Kouris, Department Head
2052 Engineering Building
Phone: (307) 766-2122 FAX: (307) 766-2695
Email: me.info@uwyo.edu
Website: http://wwweng.uwyo.edu/mechanical
Professors
DENNIS N. COON, B.S. Alfred University-New
York; M.S. 1984; Ph.D. Pennsylvania State University 1986; Professor of
Mechanical Engineering 1999, 1988.
ANDREW C. HANSEN, B.S. Montana State University
1980; M.S. University of Washington 1982; Ph.D. Montana State University
1985; Professor of Mechanical Engineering 1996, 1986.
DEMITRIS A. KOURIS, Diploma National Technical University of Athens 1982; M.S. Illinois Institute of Technology 1984; Ph.D. Northwestern University 1987; Professor Mechanical Engineering 2001; Head of Mechanical Engineering 2001.
DMITRI J. MAVRIPLIS, B.A. McGill University 1982; M.Eng. 1982; Ph.D.
Princeton University 1987; Professor of Mechanical Engineering 2003.
OVID A. PLUMB, B.S. Colorado State University 1967; M.S. 1972; Ph.D. State University of New York-Buffalo 1976; Professor of Mechanical Engineering 1999.
DAVID E. WALRATH, B.S. University of Wyoming
1974; M.S. 1975; Ph.D. University of Delaware 1986; Professor of Mechanical
Engineering 1998, 1986.
Associate Professors
PAUL A. DELLENBACK, B.S. Texas Tech University
1978; M.S. 1980; Ph.D. Arizona State University 1986; Associate Professor
of Mechanical Engineering 1994, 1990.
MARK R. GARNICH, B.S. Michigan Technological University 1981; M.S. 1983; Ph.D. University of Wyoming 1996; Associate Professor of Mechanical Engineering 2001.
JONATHAN W. NAUGHTON, B.S. Cornell University 1986; Ph.D. Pennsylvania State University 1993; Assistant Professor of Mechanical Engineering 1997.
DOUGLAS R. SMITH, Sc.B. Brown University 1987; M.A. Princeton University 1990; Ph.D. 1993; Associate Professor of Mechanical Engineering 2004, 1998.
Assistant Professors
SUKKY JUN, B.S. Yonsei University Korea 1988; M.S. Michigan State University 1992; Ph.D. Northwestern University 1996; Assistant Professor of Mechanical Engineering 2006.
Associate Lecturer
ANN NANCY PECK, B.S. Lehigh University
1984; M.S. Rensselaer Polytechnic Institute 1987; Ph.D. 1992; Associate
Lecturer in Mechanical Engineering 2000, 1997.
Senior Research Scientist
SCOTT A. MORTON, B.S. University of Wyoming
1972; M.S. 1978; Research Scientist in Mechanical Engineering 1999.
Research Scientist
CHANGWEN MI, B.S. Nanjing University, China 2001; M.S. UTSC, China 2003; Ph.D. University of Wyoming 2006; Research Scientist in Mechanical Engineering 2007.
Professors Emeriti
Donald F. Adams, Bruce R. Dewey, William R. Lindberg, John E. Nydahl, Kynric M. Pell, Donald A.
Smith, Robert A. Wheasler
Adjunct Faculty
Mark J. Balas, Michael L. Kmetz, Cenk Yavuzturk, Dan Stanescu
Mechanical Engineering is the broadest area of study in engineering. In contrast to other engineering disciplines, mechanical engineers are employed in significant percentages in almost all industrial and governmental organizations that employ engineers.
The spectrum of activities in which mechanical engineers are engaged continues to expand. The curriculum has in turn become flexible to allow for the education of mechanical engineering students in many diverse and allied areas, or for graduate school preparation.
The educational objectives of the Department of Mechanical Engineering are as follows:
- Prepare graduates to solve open-ended problems and effectively communicate the solutions.
- Prepare graduates for the professional practice of mechanical engineering.
- Prepare graduates for independent learning.
- Instill in our graduates an understanding of professional ethics and the relationship between the engineering profession and society.
The undergraduate program includes a foundation in mathematics, science, and engineering sciences. The two key elements of the mechanical engineering undergraduate program are laboratory experience and design experience. The program is directed toward developing the student’s design skill and experience, culminating in the senior design course sequence.
The mechanical engineering curriculum affords the student the flexibility to pursue specific professional goals within the discipline. Such an opportunity needs to be carefully considered by each student, so that courses are chosen with these goals in mind. During the junior and senior years, the student selects courses to make up an 18 semester-hour block of technical electives. Mechanical engineering students can, if they choose, select a curriculum with specific concentrations, such as the example areas listed below:
• Manufacturing and Design
• Materials and Solid Mechanics
• Aerodynamics
• Energy Systems
The elective hours also represent the potential for students to consider a cross-college minor or a second (parallel) degree. The selection, however, must be approved by the student’s adviser, and must be in accordance with an overall educational objective. Mechanical engineering degree candidates must meet the academic requirements of the college and in addition must have an average GPA of 2.0 (C) in mechanical engineering courses attempted at this university. A grade of (C) or better must be earned in all engineering science and required mathematics courses.
International Engineering Option
In today’s global engineering environment, it is becoming quite clear that in order to compete in the global marketplace for products, services, and careers, one must be technically, culturally, and linguistically literate.
The International Engineering Option offered by the Mechanical Engineering Department provides students with an opportunity to spend one or two semesters abroad. They will have the benefit of studying the language and culture of another country while completing their engineering degree at UW. Students in the program may take classes at a number of foreign institutions or participate in an internship.
An international experience involves more than just international study or an internship. Integration and immersion into another society removes cultural and linguistic barriers. Once these barriers have been breached, engineers and other technical professionals can begin to understand the perspectives and viewpoints held by others around the world. With this understanding, our students will not only benefit from the newly gained knowledge of international issues, practices, and opportunities, but they will also enhance their understanding of domestic issues and challenges.
The study of a foreign language and the study-abroad experience satisfy the cultural context requirements of the University Studies Program. As a result, there is only a slight increase in the total number of required credits for the BS degree in Mechanical Engineering. For students without any prior knowledge of the relevant foreign language, the total number of credit hours is 134.
Graduate Programs
The Master of Science (M.S.) and Doctor of Philosophy (Ph.D.) degrees are offered by the Department of Mechanical Engineering. In addition, the department offers combined programs leading to either a B.S./M.S. degree in Mechanical Engineering (BSMS-ME) or B.S. Physics/M.S. degree in Mechanical Engineering (PhysME). These programs provide an opportunity for undergraduate students (after fulfilling the Graduate School admission requirements) to enroll in the mechanical engineering M.S. program. This approach will enable them to receive their M.S. graduate degree in mechanical engineering within a minimum of one additional year of study. For more information, please contact the Department of Mechanical Engineering.
Students may select one of several areas of specialty in fluid dynamics, thermodynamics and heat transfer, vibrations and dynamics, materials, solid mechanics and mechanical design.
For general regulations concerning graduate degrees, see the Graduate Bulletin.
Mechanical Engineering Curriculum*
Suggested Course Sequence
| Freshman Year: Fall | Hours |
| ES 1000 | 1 |
| CHEM 1020 | 4 |
| MATH 2200 | 4 |
| ES 1060 | 3 |
| ENGL 1010 | 3 |
| Physical education** | 1 |
| Total Hours | 16 |
| Freshman Year: Spring | Hours |
| MATH 2205 | 4 |
| ES 2110 | 3 |
| Math/Science elective***** | 3 |
| US & Wyoming Constitutions (V) |
3 |
|
|
|
| Total Hours | 16 |
| Sophomore Year: Fall | Hours |
| MATH 2210 | 4 |
| PHYS 1220 | 4 |
| ES 2120 | 3 |
| ES 2410 | 3 |
|
|
|
| Total Hours | 17 |
| Sophomore Year: Spring | Hours |
| MATH 2310 | 3 |
| ME 2020 | 2 |
| ENGL 2005 | 3 |
| ES 2310 | 3 |
| ES 2330 | 3 |
| CHEM 1030 or PHYS 2310 or PHYS 2320 | 3-4 |
| Total Hours | 17-18 |
| Junior Year: Fall | Hours |
| ME 2160 | 2 |
| ME 3010 | 3 |
| ME 3020 | 3 |
| ME 3040 | 3 |
|
Business Elective****
|
|
| Total Hours | 14 |
| Junior Year: Spring | Hours |
| ME 3170 | 3 |
| ME 3360 | 3 |
| ME 3450 | 3 |
| ME 4020 | 3 |
| Technical Elective***** | 3 |
|
Cultural Context Elective******
|
|
| Total Hours | 18 |
| Senior Year: Fall | Hours |
| ME 4010 or EE 4620 | 3 |
| ME 4060 |
3 |
|
Math/Science Elective***
|
|
| ME Elective | 3 |
| Cultural Context Elective****** | 3 |
| Total Hours | 15 |
| Senior Year: Spring | Hours |
| ME 4070 | 3 |
| ME Fluids elective******** | 3 |
| ME Solids elective******* | 3 |
| ME elective | 3 |
| Cultural Context Elective****** | 3 |
| Total Hours | 15 |
International Engineering Option Curriculum*
Suggested Course Sequence
| Freshman Year: Fall | Hours |
| MATH 2200 | 4 |
| ES 1000 | 1 |
| ES 1060 | 3 |
| CHEM 1020 | 4 |
| ENGL 1010 | 3 |
| Physical education** | 1 |
| Total Hours | 16 |
| Freshman Year: Spring | Hours |
| MATH 2205 | 4 |
| ES 2110 | 3 |
| COJO 1010 | 3 |
| US & Wyo Constitutions (V) | 3 |
| Math/Science Elective*** |
|
| Total Hours | 16 |
| Freshman Year: Summer | Hours |
| First Year Language I (1010) | 4 |
| First Year Language II (1020) | 4 |
| Total Hours | 8 |
| Sophomore Year: Fall | Hours |
| MATH 2210 | 4 |
| ES 2120 | 3 |
| ES 2410 | 3 |
| PHYS 1220 | 4 |
| Second Year Language I (2030) |
4 |
| Total Hours | 17 |
| Sophomore Year: Spring | Hours |
| MATH 2310 | 3 |
| ES 2310 | 3 |
| ME 2020 | 2 |
| ENGL 2005 | 3 |
| CHEM 1030 or PHYS 2310 or 2320 | 3-4 |
| Second Year Language II (2040) | 3 |
| Total Hours | 17-18 |
| Sophomore Year: Summer | Hours |
| ES 2210 | 3 |
| ES 2330 | 3 |
| Total Hours | 6 |
| Junior Year: Fall | Hours |
| ME 2160 | 2 |
| ME 3010 | 3 |
| ME 3020 | 3 |
| ME 3040 | 3 |
| ME 3360 |
|
| Total Hours | 14 |
| Junior Year: Spring | Hours |
| (Study Abroad Semester) | |
| ME 3170 | 3 |
| ME 3450 | 3 |
| Technical Elective***** | 3 |
| Total Hours | 9 |
| Senior Year: Fall | Hours |
| ME 4010 or EE 4620 | 3 |
| ME 4060 |
2 |
| ME Elective |
|
| Math/Science Elective*** | 3 |
| Total Hours | 14 |
| Senior Year: Spring | Hours |
| ME 4020 | 3 |
| ME 4070 | 4 |
| ME Solids elective******* | 3 |
| ME Fluids elective ******** | 3 |
| Business elective**** | 3 |
| Total Hours | 16 |
*A minimum of 128 credit hours graded (A-F) course hours are necessary to satisfy degree requirements. Students selecting the International Studies Option require a minimum of 134 credit hours to satisfy degree requirements. (Credits earned by examination count in these hours).
**Offered S/U only. Need not be taken during freshman year, but must be completed prior to graduation.
***Math/Science electives: To be selected from the department-approved list.
****Business elective: ACCT 1010, BADM 1040, DSCI 3210, DSCI 4260, FIN 3250 or others as approved by advisor.
*****Technical elective: Must have prior approval of the advisor. May be chosen from any engineering discipline, mathematics, science or business. 2 of the 4 elective courses must be at the 3000+ level.
******The Cultural Context Electives must be chosen to earn one each of the following credits: CH (Humanities); CS (Social Sciences); CA (Arts) with embedded G (Global Awareness); and D (Cultural Diversity in the US).
*******ME Solids Electives: ME 4040, 4100, 4210, 4215.
********ME Fluids Electives: ME 3400, 4240, 4340, 4350, 4430, 4470.
Mechanical Engineering (ME) Courses
Please send comments or questions to registrar@uwyo.edu
Last Change: 02/14/08