Mar 29, 2024  
2013-2014 Graduate Catalog 
    
2013-2014 Graduate Catalog ARCHIVED CATALOG: CONTENT MAY NOT BE CURRENT. USE THE DROP DOWN ABOVE TO ACCESS THE CURRENT CATALOG.

Master of Science in Engineering - Mechanical Engineering


Return to {$returnto_text} Return to: Graduate Plans

Plan Description


The Master of Science degree is designed to give post baccalaureate students a broad understanding of the mechanical engineering field while providing some depth in a specific option area. Option areas include Dynamic Systems and Controls, Fluid and Thermal Sciences, Materials and Mechanics, Engineering Management, Mechanical and Environmental Systems, Nuclear Engineering, and Aerospace Engineering. Applicants who choose the M.S.E. program usually have an interest in more than one aspect of Mechanical Engineering. They are interested in gaining research and/or design experience to become better prepared for the workforce or further graduate study. Graduates from the program have gone to work in a broad range of industries including automotive, aerospace, nuclear, energy, oil, entertainment, HVAC, defense, utilities, and manufacturing. Graduates have also enrolled in some of the top Ph.D. programs in the country.

 

Learning Outcomes

www.unlv.edu/degree/mse-mechanical-engineering

Plan Admission Requirements


In addition to the general requirements for admission to the Graduate College, an applicant for the M.S. program must complete the following requirements:

  1. Applicants must complete the on-line process in the “Apply Yourself (AY)” system.
  2. In addition to the required information in the general AY application system, the Mechanical Engineering Department has two additional requirements which can also be submitted in the AY system as optional items. Electronic submission is the preferred method. If these items are not completed in the AY system before you finish and make payment, you cannot go back and do them electronically afterwards. In this case, you must mail hardcopies to the Mechanical Engineering Department. The two items are:
    1. A written statement of purpose indicating interests and objectives in working toward a M.S. degree.
    2. Two letters of recommendation. There is no specified format. Your references should point out the qualifications that make you a good candidate for admission.
  3. The applicant must have a bachelor’s degree in engineering or a closely related discipline. Students with non-engineering backgrounds will be required to complete a set of course work requirements that will assure successful completion of the M.S. specialization and qualify the student to sit for the Fundamentals of Engineering (FE) exam. The Graduate Program Committee (GPC) will decide upon special cases.
  4. The applicant must submit his/her official copy of the Graduate Record Examination (GRE) test scores. To be admitted to the graduate program in Mechanical Engineering, the applicant must be at or above the 75 percentile range (of the group taking the GRE when the applicant takes the exam) in the quantitative reasoning section of the exam. If the applicant is less than 75 percent, at the discretion of the Department of Mechanical Engineering, the applicant may be provisionally admitted to the graduate program with the requirement that he/she retake the GRE during the first semester after admission. If the applicant fails to retake the GRE during the first semester after admission or if the applicant fails to be at or above the 75 percent range in the quantitative reasoning section of the exam after retaking the exam, at its discretion, the Department of Mechanical Engineering may remove the applicant from the graduate program. The GRE university code for UNLV is 4861. The Mechanical Engineering Department code is 1502.
  5. The GPC will examine the applicant’s academic record and will make the final determination of the applicant’s admissibility to the M.S. program. In general, a minimum post baccalaureate GPA of 3.00 on a 4.00 scale or equivalent is required for admission in addition to a GPA of 3.00 on a 4.00 scale or equivalent in all engineering courses.
  6. All domestic and international applicants must review and follow the Graduate College Admission and Registration Requirements.

Our department admissions committee looks at all of these requirements when making admissions decisions.

The Integrated BS-MS degree program is designed to provide high-achieving MEG undergraduate students with the opportunity to be exposed to graduate courses and to encourage them to continue with graduate degree by reducing the time needed for degree completion. Up to nine credit hours of approved graduate-level course work can be taken as technical electives for the grade of B or better during the senior year and those credit hours will be waived for the graduate degree. The following conditions are needed to enroll in the Integrated BS-MS program:

  1. A minimum of two semesters of full-time enrollment in B.S. of Mechanical Engineering program is required.
  2. Applications are normally submitted with two semesters remaining in the senior year.
  3. A minimum of 90 credit hours of course work applicable to the B.S. of Mechanical Engineering degree with a cumulative GPA of 3.50 or higher must be completed before beginning the joint degree program.
  4. Student has to choose the thesis option.

Subplan 1 Requirements: Non-Thesis Track


Total Credits Required: 30

Course Requirements

Required Courses – Credits: 9

Select one of the following specializations and complete three courses:

 

Dynamic Systems and Controls

ME 625 - Robotics 

ME 629 - Computer Control of Machines and Processes 

ME 653 - Mechanical Vibrations 

ME 725 - Vibrations I 

ME 726 - Vibrations II 

ME 729 - Advanced Robotics 

ME 740 - Advanced Dynamics 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

ME 746 - Experimental Design and Analysis of Digital Process Control Systems 

 

Fluid/Thermosciences

ME 700 - Advanced Fluid Mechanics I 

ME 701 - Advanced Fluid Mechanics II 

ME 702 - Computational Fluid Dynamics 

ME 703 - Continuum Mechanics 

ME 704 - Finite Element Applications in Mechanical Engineering 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 707 - Radiation Heat Transfer 

ME 708 - Convective Boiling and Condensation 

ME 710 - Transport Phenomena in Bioengineering 

ME 711 - Advanced Thermodynamics 

ME 714 - Computational Aspects of Solar Energy 

ME 717 - Transport Phenomena 

 

Materials and Mechanics

ME 641 - Advanced Mechanical Engineering Design 

ME 643 - Design Techniques in Mechanical Engineering 

ME 646 - Composite Materials 

ME 732 - Mechanical Metallurgy 

ME 734 - Fracture of Engineering Materials 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

ME 742 - Energy and Variational Methods in Applied Mechanics II 

ME 743 - Applied Dynamic Finite Element Analysis 

 

Engineering Management

CEE 609 - Engineering Project Management 

MBA 763 - Leadership, Teams, and Individuals 

MBA 769 - Applied Economic Analysis 

MBA 767 - Market Opportunity Analysis 

MBA 771 - Law and Ethics 

MBA 775 - Data Modeling and Analysis 

ME 626 - Manufacturing Processes 

ME 701 - Advanced Fluid Mechanics II 

ME 727 - Engineering Optimization 

 

Mechanical and Environmental Systems

ME 618 - Air Conditioning Engineering Systems 

ME 634 - Noise Control 

ME 653 - Mechanical Vibrations 

ME 700 - Advanced Fluid Mechanics I 

ME 706 - Convective Heat Transfer 

ME 720 - Acoustics I 

ME 721 - Acoustics II 

ME 725 - Vibrations I 

ME 726 - Vibrations II 

 

Nuclear Engineering

ME 630 - Corrosion Engineering 

ME 655 - Fundamentals of Nuclear Engineering 

ME 656 - Radioactive Waste Management 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 707 - Radiation Heat Transfer 

ME 708 - Convective Boiling and Condensation 

 

Aerospace

ME 700 - Advanced Fluid Mechanics I 

ME 701 - Advanced Fluid Mechanics II 

ME 702 - Computational Fluid Dynamics 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 740 - Advanced Dynamics 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

 

Electives – Credits: 18

Complete 18 credits of elective coursework from within the College of Engineering. Courses from outside the College of Engineering may be taken with advisor approval.

Design Project – Credits: 3

ME 796 - Design Project in Mechanical Engineering 

Degree Requirements 

  1. Requires 33 credits of approved graduate courses. At least 18 credits must be earned from 700-level courses, and 15 credits must be in engineering.
  2. Satisfactory progress is defined as filing an approved program before the completion of nine credits of course work, completion of at least six credits of the approved program per calendar year, maintenance of a GPA of 3.00 (4.00 scale), no grades below C, (C- is not acceptable) and compliance with the letter and spirit of the Graduate Catalog and published policies of the Howard R. Hughes College of Engineering. If progress is not satisfactory, probation and separation may result, in accordance with the rules of the Graduate College. Any student whose GPA falls below 3.00 will be placed on probation and will have one semester to raise it to 3.00 or above.
  3. Only those courses in which a student received a grade of C or better may be used for graduate credit. Students must comply with Graduate College policy.
  4. Each student’s program should show suitable breadth and coherence. As specified in the Graduate Catalog, the program of study will be developed by the student and advisor and filed with the Graduate College. Prior to filing, the program must receive approval by the student’s committee. An approved program must be filed before the completion of nine credits of course work after admission (regular or provisional). The responsibility rests with the student. Students will be dropped from the graduate engineering program if they neglect this requirement.

Graduation Requirements 

  1. The student must submit all required forms to the Graduate College and then apply for graduation up to two semesters prior to completing his/her degree requirements.
  2. Successfully complete a design project.

Subplan 2 Requirements: Thesis Track


Total Credits Required: 30

Course Requirements

Required Courses – Credits: 9

Select one of the following specializations and complete three courses:

 

Dynamic Systems and Controls

ME 625 - Robotics 

ME 629 - Computer Control of Machines and Processes 

ME 653 - Mechanical Vibrations 

ME 725 - Vibrations I 

ME 726 - Vibrations II 

ME 729 - Advanced Robotics 

ME 740 - Advanced Dynamics 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

ME 746 - Experimental Design and Analysis of Digital Process Control Systems 

 

Fluid/Thermosciences

ME 700 - Advanced Fluid Mechanics I 

ME 701 - Advanced Fluid Mechanics II 

ME 702 - Computational Fluid Dynamics 

ME 703 - Continuum Mechanics 

ME 704 - Finite Element Applications in Mechanical Engineering 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 707 - Radiation Heat Transfer 

ME 708 - Convective Boiling and Condensation 

ME 710 - Transport Phenomena in Bioengineering 

ME 711 - Advanced Thermodynamics 

ME 714 - Computational Aspects of Solar Energy 

ME 717 - Transport Phenomena 

 

Materials and Mechanics

ME 641 - Advanced Mechanical Engineering Design 

ME 643 - Design Techniques in Mechanical Engineering 

ME 646 - Composite Materials 

ME 732 - Mechanical Metallurgy 

ME 734 - Fracture of Engineering Materials 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

ME 742 - Energy and Variational Methods in Applied Mechanics II 

ME 743 - Applied Dynamic Finite Element Analysis 

 

Engineering Management

CEE 609 - Engineering Project Management 

MBA 763 - Leadership, Teams, and Individuals 

MBA 769 - Applied Economic Analysis 

MBA 767 - Market Opportunity Analysis 

MBA 771 - Law and Ethics 

MBA 775 - Data Modeling and Analysis 

ME 626 - Manufacturing Processes 

ME 701 - Advanced Fluid Mechanics II 

ME 727 - Engineering Optimization 

 

Mechanical and Environmental Systems

ME 618 - Air Conditioning Engineering Systems 

ME 634 - Noise Control 

ME 653 - Mechanical Vibrations 

ME 700 - Advanced Fluid Mechanics I 

ME 706 - Convective Heat Transfer 

ME 720 - Acoustics I 

ME 721 - Acoustics II 

ME 725 - Vibrations I 

ME 726 - Vibrations II 

 

Nuclear Engineering

ME 630 - Corrosion Engineering 

ME 655 - Fundamentals of Nuclear Engineering 

ME 656 - Radioactive Waste Management 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 707 - Radiation Heat Transfer 

ME 708 - Convective Boiling and Condensation 

 

Aerospace

ME 700 - Advanced Fluid Mechanics I 

ME 701 - Advanced Fluid Mechanics II 

ME 702 - Computational Fluid Dynamics 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 740 - Advanced Dynamics 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

 

Electives – Credits: 15

Complete 15 credits of elective coursework from within the College of Engineering. Courses from outside the College of Engineering may be taken with advisor approval.

Thesis – Credits: 6

ME 797 - Thesis in Mechanical Engineering 

Degree Requirements 

  1. Requires 24 credits of approved graduate courses plus six credits of work associated with the master’s level thesis, for a total of 30 credits. At least 15 credits must be earned from 700-level courses, and at least 15 credits must be in engineering. The final examination will include a defense of thesis.
  2. Satisfactory progress is defined as filing an approved program before the completion of nine credits of course work, completion of at least six credits of the approved program per calendar year, maintenance of a GPA of 3.00 (4.00 scale), no grades below C, (C- is not acceptable) and compliance with the letter and spirit of the Graduate Catalog and published policies of the Howard R. Hughes College of Engineering. If progress is not satisfactory, probation and separation may result, in accordance with the rules of the Graduate College. Any student whose GPA falls below 3.00 will be placed on probation and will have one semester to raise it to 3.00 or above.
  3. Only those courses in which a student received a grade of C or better may be used for graduate credit. Students must comply with Graduate College policy.
  4. In consultation with his/her advisor, a student will organize a thesis committee of at least three departmental members. In addition, a fourth member from outside the department, known as the Graduate College Representative, must be appointed. An additional committee member may be added at the student and department’s discretion. Please see Graduate College policy for committee appointment guidelines.
  5. Each student’s program should show suitable breadth and coherence. As specified in the Graduate Catalog, the program of study will be developed by the student and advisor and filed with the Graduate College. Prior to filing, the program must receive approval by the student’s committee. An approved program must be filed before the completion of nine credits of course work after admission (regular or provisional). The responsibility rests with the student. Students will be dropped from the graduate engineering program if they neglect this requirement.

Graduation Requirements 

  1. The student must submit all required forms to the Graduate College and then apply for graduation up to two semesters prior to completing his/her degree requirements.
  2. The student must submit and successfully defend his/her thesis by the posted deadline. The defense must be advertised and is open to the public.
  3. The student must submit his/her approved, properly formatted hard-copy document to the Graduate College, and submit the approved electronic version to ProQuest by the posted deadline.

Subplan 3 Requirements: Integrated BS-MS Track


Total Credits Required: 21-27

Course Requirements

Required Courses – Credits: 9

Select one of the following specializations and complete three courses:

 

Dynamic Systems and Controls

ME 625 - Robotics 

ME 629 - Computer Control of Machines and Processes 

ME 653 - Mechanical Vibrations 

ME 725 - Vibrations I 

ME 726 - Vibrations II 

ME 729 - Advanced Robotics 

ME 740 - Advanced Dynamics 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

ME 746 - Experimental Design and Analysis of Digital Process Control Systems 


Fluid/Thermosciences

ME 700 - Advanced Fluid Mechanics I 

ME 701 - Advanced Fluid Mechanics II 

ME 702 - Computational Fluid Dynamics 

ME 703 - Continuum Mechanics 

ME 704 - Finite Element Applications in Mechanical Engineering 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 707 - Radiation Heat Transfer 

ME 708 - Convective Boiling and Condensation 

ME 710 - Transport Phenomena in Bioengineering 

ME 711 - Advanced Thermodynamics 

ME 714 - Computational Aspects of Solar Energy 

ME 717 - Transport Phenomena 

 

Materials and Mechanics

ME 641 - Advanced Mechanical Engineering Design 

ME 643 - Design Techniques in Mechanical Engineering 

ME 646 - Composite Materials 

ME 732 - Mechanical Metallurgy 

ME 734 - Fracture of Engineering Materials 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

ME 742 - Energy and Variational Methods in Applied Mechanics II 

ME 743 - Applied Dynamic Finite Element Analysis 

 

Engineering Management

CEE 609 - Engineering Project Management 

MBA 763 - Leadership, Teams, and Individuals 

MBA 769 - Applied Economic Analysis 

MBA 767 - Market Opportunity Analysis 

MBA 771 - Law and Ethics 

MBA 775 - Data Modeling and Analysis 

ME 626 - Manufacturing Processes 

ME 701 - Advanced Fluid Mechanics II 

ME 727 - Engineering Optimization 

 

Mechanical and Environmental Systems

ME 618 - Air Conditioning Engineering Systems 

ME 634 - Noise Control 

ME 653 - Mechanical Vibrations 

ME 700 - Advanced Fluid Mechanics I 

ME 706 - Convective Heat Transfer 

ME 720 - Acoustics I 

ME 721 - Acoustics II 

ME 725 - Vibrations I 

ME 726 - Vibrations II 

 

Nuclear Engineering

ME 630 - Corrosion Engineering 

ME 655 - Fundamentals of Nuclear Engineering 

ME 656 - Radioactive Waste Management 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 707 - Radiation Heat Transfer 

ME 708 - Convective Boiling and Condensation 

 

Aerospace

ME 700 - Advanced Fluid Mechanics I 

ME 701 - Advanced Fluid Mechanics II 

ME 702 - Computational Fluid Dynamics 

ME 705 - Conduction Heat Transfer 

ME 706 - Convective Heat Transfer 

ME 740 - Advanced Dynamics 

ME 741 - Energy and Variational Methods in Applied Mechanics I 

 

Electives – Credits: 6-12

Complete 6-12 credits of elective coursework from within the College of Engineering. Courses from outside the College of Engineering may be taken with advisor approval.

Thesis – Credits: 6

ME 797 - Thesis in Mechanical Engineering 

Degree Requirements 

  1. Total credits required depends on the total number of approved graduate-level course work taken as technical electives (with a grade of B or better) during the senior year.
  2. Requires 15-21 credits of approved graduate courses plus six credits of work associated with the master’s level thesis, for a total of 21-27 credits. At least 15 credits must be earned from 700-level courses, and at least 15 credits must be in engineering. The final examination will include a defense of thesis.
  3. Satisfactory progress is defined as filing an approved program before the completion of nine credits of course work, completion of at least six credits of the approved program per calendar year, maintenance of a GPA of 3.00 (4.00 scale), no grades below C, (C- is not acceptable) and compliance with the letter and spirit of the Graduate Catalog and published policies of the Howard R. Hughes College of Engineering. If progress is not satisfactory, probation and separation may result, in accordance with the rules of the Graduate College. Any student whose GPA falls below 3.00 will be placed on probation and will have one semester to raise it to 3.00 or above.
  4. Only those courses in which a student received a grade of C or better may be used for graduate credit. Students must comply with Graduate College policy.
  5. In consultation with his/her advisor, a student will organize a thesis committee of at least three departmental members. In addition, a fourth member from outside the department, known as the Graduate College Representative, must be appointed. An additional committee member may be added at the student and department’s discretion. Please see Graduate College policy for committee appointment guidelines.
  6. Each student’s program should show suitable breadth and coherence. As specified in the Graduate Catalog, the program of study will be developed by the student and advisor and filed with the Graduate College. Prior to filing, the program must receive approval by the student’s committee. An approved program must be filed before the completion of nine credits of course work after admission (regular or provisional). The responsibility rests with the student. Students will be dropped from the graduate engineering program if they neglect this requirement.

Graduation Requirements 

  1. The student must submit all required forms to the Graduate College and then apply for graduation up to two semesters prior to completing his/her degree requirements.
  2. The student must submit and successfully defend his/her thesis by the posted deadline. The defense must be advertised and is open to the public.
  3. The student must submit his/her approved, properly formatted hard-copy thesis to the Graduate College, and submit the approved electronic version to ProQuest by the posted deadline.

Plan Graduation Requirements


Refer to your subplan for Graduation Requirements.

Subplan 1: Non-Thesis Track
Subplan 2: Thesis Track
Subplan 3: Integrated BS-MS Track

Return to {$returnto_text} Return to: Graduate Plans