Main Departmental Office
North Texas Research Park, Room F101
P.O. Box 311098
Denton, TX 76203-1098
Fax: (940) 369-8675
Web site: www.mee.unt.edu
Professor Michaelides. Assistant Professors Boetcher, Choi, Feng.
The Department of Mechanical and Energy Engineering at the University of North Texas is committed to academic excellence in undergraduate and graduate education and research in all areas pertinent to the discipline of mechanical engineering and in particular in subjects related to energy production and conservation and thermal engineering. The goals of the Department and its faculty are: (1) to provide high quality and innovative educational programs at the undergraduate and graduate levels; (2) to foster lifelong learning; to promote professionalism and ethical standards; and to help students develop leadership qualities; (3) to pursue excellence in scholarly research in areas of mechanical and energy engineering; and (4) to collaborate with engineers in industry, national laboratories and government agencies in the solution of national and global problems related to energy use and its environmental impacts.
The mission of the Department of Mechanical and Energy Engineering is to harness the power of ideas by fostering a strong culture of learning, high quality scholarly activities and service to the engineering profession and society. We seek to accomplish this mission by:
The vision of the Department of Mechanical and Energy Engineering is to create an outstanding, innovative and interdisciplinary academic program that emphasizes the fundamentals of mechanical engineering, modern applications pertaining to energy production, management and distribution, and life-long learning skills, within a research-and-project oriented environment.
The department currently offers programs in the following areas:
The Bachelor of Science degree with a major in mechanical and energy engineering follows an interdisciplinary and innovative curriculum that combines the essentials of the classical discipline of mechanical engineering with the deeper knowledge of the dynamic field of energy studies. Thus, the BS degree combines the fundamentals of mechanical engineering with a broad specialization on subjects related to energy production, management and distribution. The goal of the mechanical and energy engineering department is to provide a curriculum and course of training that will prepare today’s undergraduate not only for today’s challenges, but also for future challenges in a fast-paced, global, and diverse society. As a consequence, this program emphasizes the fundamentals of engineering and modern methods, processes and technologies and also gives students the tools to learn by themselves and to pursue lifelong learning.
The mechanical and energy engineering curriculum is very broad. It is similar to the traditional mechanical engineering curriculum with the notable addition of several required energy-related courses and elective courses that emphasize energy applications and materials. In their first year, students in this program will take preparatory courses in mathematics and the basic sciences, including physics, computer science and chemistry. The required engineering courses are in the broad areas of: thermal science, fluid flow and energy; mechanics and materials; dynamics, design and controls; environmental impact of energy production and use. Technical elective courses range from alternative energy sources to entrepreneurship. The program also emphasizes studies in the humanities and social sciences, artistic ingenuity, professionalism and engineering ethics.
The BS degree with a major in mechanical and energy engineering is a new program at the University of North Texas. The curriculum of this program has been designed to meet the ABET criteria for accreditation in the general category of “Mechanical Engineering.” According to the ABET procedures, accreditation for this program will be sought as soon as the program graduates its first class of students, which is expected to happen in spring 2010.
1. Hours Required and General/College Requirements: A minimum of 131 semester hours, of which 42 must be advanced, and fulfillment of degree requirements for the Bachelor of Science degree as specified in the “General University Requirements” in the Academics section of this catalog and the College of Engineering requirements.
2. Major Requirements: A minimum of 43 semester hours, including MEEN 1110, 1210, 2210, 2250, 3110, 3120, 3125, 3130, 3210, 3230, 3240, 4110, 4112, 4150, 4250 and ENGR 2303; plus 9 hours of MEEN technical electives.
3. Other Required Courses:
a. MATH 1710, 1720, 2730 and 3310.
b. CHEM 1410/1430, PHYS 1710/1730, PHYS 2220
c. CSCE 1020; EENG 1910, 2610; ENGR 2303, 2060, 2332; MEEN 3245
d. MGMT 3850 (or another approved elective)
e. GEOG 1170 (may be used to satisfy the Social and Behavioral Sciences requirement of the University Core Curriculum).
f. PHIL 2500 (may be used to satisfy the Humanities requirement of the University Core Curriculum).
4. Minor: Optional
5. Electives: See four-year plan.
6. Other Requirements: A grade point average of at least 2.5 is required for all mechanical and energy engineering courses.
Following is one suggested four-year degree plan. Students are encouraged to see their adviser each semester for help with program decisions and enrollment. Students are responsible for meeting all course prerequisites.
|CSCE 1020, Program Development||4|
|EENG 1910, Project I (Learning to Learn)||2|
|ENGL 1310, College Writing I or ENGL 1313, Computer Assisted College Writing I*||3|
|MATH 1710, Calculus I||4|
|MEEN 1110, Mechanical and Energy Engineering Practice I||1|
|CHEM 1410, General Chemistry for Science Majors**||3|
|CHEM 1430, Laboratory Sequence for General Chemistry**||1|
|ENGL 2700, Technical Writing*||3|
|MATH 1720, Calculus II||3|
|MEEN 1210, Mechanical and Energy Engineering Practice II||1|
|PHYS 1710, Mechanics||3|
|PHYS 1730, Laboratory in Mechanics||1|
|ENGR 2060, Professional Presentations||3|
|ENGR 2303, Statics and Dynamics||4|
|GEOG 1170, Culture, Environment and Society (may be used to satisfy Social and Behavioral Sciences requirement*)||3|
|MATH 2700, Linear Algebra and VectorGeometry||3|
|PHYS 2220, Electricity and Magnetism||3|
|ENGR 2332, Mechanics of Materials||4|
HIST 2610, United States History to 1865*
|MATH 3310, Differential Equations for Engineering Majors||3|
|MEEN 2210, Thermodynamics||3|
|MEEN 2250, Computer Aided Engineering||3|
|Cross-Cultural, Diversity and Global Studies*||3|
|EENG 2610, Circuit Analysis||3|
|MEEN 3110, Thermomechanical Energy Conversion||3|
|MEEN 3120, Fluid Mechanics and Convection||3|
|MEEN 3130, Machine Elements||3|
|MEEN 3210, Conduction and Radiation||1|
|PHIL 2500, Introduction to Contemporary Environmental Issues (may be used to satisfy Humanities requirement*)||3|
|MEEN 3125, Thermal Engineering Projects||2|
|MEEN 3230, Dynamics, Vibrations and Control||3|
|MEEN 3240, Mechanical and Energy Engineering Laboratory and Instrumentation||3|
|MEEN 3245, Engineering Materials||3|
|PSCI 1040, American Government*||3|
|Visual and Performing Arts*||3|
|HIST 2320, United States History Since 1865*||3|
|MEEN 4150, Mechanical and Energy Engineering Design I||3|
|MEEN 4112, Nuclear Energy||3|
|MEEN 4110, Alternative Energy Sources||3|
|PSCI 1050, American Government*||3|
|MEEN 4250, Mechanical and Energy Engineering Design II||3|
|MGMT 3850, Entrepreneurship***||3|
*See the University Core Curriculum section of this catalog for approved list of course options.
** See College of Engineering degree requirements section of this catalog for approved list of course options.
*** May substitute a Technical Elective
Actual degree plans may vary depending on availability of courses in a given semester. Some courses may require prerequisites not listed.
The Department of Mechanical and Energy Engineering offers a degree program leading to the Master of Science. For information, consult the Graduate Catalog.
All Courses of Instruction are located in one section at the back of this catalog.
Date of initial release: July 1, 2007 — Copyright © 2007 University of North Texas
Page updated: September 5, 2007 — Comments or corrections: email@example.com
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