R. Daniel Maynes, Chair
435-A CTB, (801) 422-2625
Ira A. Fulton College of Engineering and Technology Advisement Center
242 CB, (801) 422-4325
The degree program in the Department of Mechanical Engineering carries special enrollment limitations. Please see Professional Program Acceptance below and the college advisement center for specific details.
To receive a BYU bachelor's degree a student must complete, in addition to all requirements for a specific major, the following university requirements:
Students should see their college advisement center for help or information concerning the undergraduate programs.
For more information see the BYU 2014–2015 Graduate Catalog.
Mechanical engineers work with concepts, ideas, and products that are primarily mechanical or energy related. Mechanical engineering is a broad discipline that prepares a person to contribute in a wide range of fields such as aerospace, computer graphics, power generation, machine tools, petroleum, agricultural and construction equipment, medicine, government, and all types of transportation. A mechanical engineer may work in research, design, analysis, manufacturing, testing, operations, sales, or management. Engineers use critical problem-solving methods and basic principles of mathematics and science to creatively solve problems.
The Brigham Young University Department of Mechanical Engineering bachelor of science program pursues the following objectives:
To assure that these objectives are reached, the department has articulated twelve outcomes of the BS program. Each student graduating from this program is expected to have:
All courses in the curriculum are designed to help achieve these outcomes.
The curriculum in mechanical engineering is accredited by the Engineering Accreditation Commission of the Accreditation Board for Engineering and Technology, Inc. (ABET).
A bachelor of science degree in mechanical engineering provides widely recognized professional training for careers in industry, government, and other areas. Most industrial companies hire some mechanical engineers. Companies that make mechanical or energy-related products may hire mostly mechanical engineers. As a result, many mechanical engineering positions are available worldwide. Mechanical engineers have job opportunities in companies involved in such areas as aircraft and spacecraft design; manufacturing processes; product safety and reliability; solar energy; electronic equipment packaging and cooling; power plant design; jet, train, truck, and automobile engines; environmental protection; artificial intelligence; robotics; medical and hospital equipment; new material development and applications; and technical writing. Increasing numbers of positions utilize foreign language experience.
A graduate in mechanical engineering is prepared for advanced studies in the field as well as in a variety of other disciplines, including law, medicine, and business administration. Perhaps most important to graduates are the problem-solving strategies and thinking processes acquired in the study of mechanical engineering that help one to succeed in any area of endeavor.
Any student may choose to major in mechanical engineering and to enroll in all classes in the preprofessional program (items 1 and 2 under BS Mechanical Engineering Major Requirements).
Students must be accepted into the professional program before they may take the professional Me En core or technical electives (items 4 and 5 in major requirements). To apply, students must have completed the following five courses at a college or university with an accredited engineering program (neither AP nor concurrent enrollment credit meet this requirement):
Acceptance is based on the GPA from the courses listed above. The GPA cut-off is determined by fixing the number of students admitted to the program and will vary from year to year. The current limit of students admitted per year is 160 and the GPA cut-off for the past year was 3.40. Both the limit and GPA cut-off are subject to change.
Only one repeat of each course is allowed for purposes of determining professional program acceptance. If a student has taken more than four professional application courses or has repeated any of these courses, only the grades of each of the first four courses taken or the highest grade when a course is retaken will be considered. Transfer students from institutions that do not have accredited engineering programs will be considered for provisional admission for one semester based on transferred courses but will be retained or denied based on four courses taken at BYU. The courses used will be the next four courses on the engineering flow chart following courses 1-4 listed above.
Normal application deadlines are July 1, October 1, and February 1. Applications from transfer students who have been admitted to the university may be considered at other times.
Professional program application forms are available in the major department and also online.
On gaining acceptance into the professional program, students must maintain a minimum university cumulative grade point average of 2.0. No more than 6 credit hours of grades below C– in major courses (including pre-professional and professional program courses) may be applied toward graduation. A professional program course (a required course not included in pre-professional program) may not be retaken more than once.