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Nov 24, 2024
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University General Course Catalog 2022-2023 ARCHIVED CATALOG: LINKS AND CONTENT ARE OUT OF DATE. CHECK WITH YOUR ADVISOR.
Mechanical Engineering, M.S.
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The department currently offers the master of science and doctor of philosophy degrees in mechanical engineering. The department does not have a language requirement for the Ph.D. degree.
The program of courses and research for both the master’s and doctoral degrees is tailored to the background, needs and interests of the individual student. Current areas of research include: - Smart, active, and soft materials: sensing and actuation, stimuli-responsive shape-programmable matter, artificial muscles, biomimetic and soft robotics
- Advanced manufacturing and materials processing: 3D printing and bioprinting, laser processing, composite materials and structures, tribology and surface science, micro-/nanomanufacturing
- Micro-/nanoscale transport, energy conversion and storage
- Theoretical and computational mechanics: micromechanics, multi-scale modeling of material electrical, chemical, thermal, and mechanical properties, continuum mechanics
- Experimental mechanics: in situ microscale mechanical testing, plasticity and fatigue of high-strength, light-weight alloys
- Elasticity, dynamics, and control of structures: fluid-structure interaction, atomic force microscopy
- Data-driven and nonlinear control, bioinspired sensory integration
- Advanced multi-phase turbomachinery
- Rarefied gas, large fire, and augmented heat transfer, porous media heat and mass transfer
- Nuclear packaging safety
Current areas of research can be found on the department website - http://www.unr.edu/me/research
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Program Objectives/Student Learning Outcomes
Our program is directed towards preparing motivated students to become professionally competent and capable of independent, self-directed research in one of several sub-disciplines of mechanical engineering, including solid mechanics, materials, structures, advanced manufacturing, fluid mechanics, heat transfer, thermodynamics, nuclear and renewable energy, dynamics, robotics, and controls.
Admission Requirements
We expect applicants to have a grade point average of 3.0 (4.0 scale) or better for the B.S. degree program or the last two years of course work for MS program applicants; and a minimum GPA of 3.25 (4.0 scale) for Ph.D. program applicants.
We expect the GRE scores of Verbal + Quantitative to be 300 (1100 in old 800 point scale) or higher. We prefer applicants with scores above 70th percentile in the Quantitative GRE exam (>155, or >700 in old 800 point scale).
Students whose native language is not English, must take the TOEFL or IELTS unless they have completed BS/MS degrees at an English speaking university. The minimum acceptable score for applicants is 79 for internet-based TOEFL (213 computer based or 550 paper based), or 6.5 for IELTS.
For MS and PhD program applicants, research and/or industrial experience, three letters of recommendation, and a statement of purpose are important parts of the application package.
I. Program Requirements
Both Plan A (requiring the completion of a thesis) and Plan B (nonthesis) master’s degree programs are available. All master’s degree candidates are initially accepted into Plan B, but may be invited to complete Plan A in cooperation with a faculty research advisor. Graduate students in Plan A are eligible to apply for teaching assistantships. In addition to the requirements for a MS degree established by the graduate school (for details see graduate catalog), Plan A and Plan B have the following requirements: A. Plan A (Thesis)
In the thesis program, at least 30 acceptable graduate credits must be completed, comprising 21 credits of coursework and 9 credits of thesis research. At least 18 of those credits must be earned in on-campus courses at the university. Any transfer credits from another institution must be approved for inclusion in the program of study by the advisory/examining committee, and must be officially accepted by the Office of Admissions and Records. At least 12 credits in the program must be at the 700 level. A maximum of 12 graduate units completed prior to admission to graduate standing may be applied to a master’s degree program of study. A maximum of 18 graduate credits completed from a relevant University of Nevada, Reno graduate certificate may be applied to a master’s degree program of study. A maximum of 6 graduate S/U units may apply towards a master’s degree, excluding S/U units allowed for comprehensive examination, professional paper and thesis units, but including transfer units.
Coursework (21 units)
Please contact your graduate advisor for course approval. B. Plan B (Non-Thesis)
The program of study requires the satisfactory completion of at least 30 credits of acceptable graduate courses. At least 18 credits must be earned in on-campus courses at the university. At least 18 of the 30 total credits must be earned at the 700 level.
A maximum of 12 graduate units completed prior to admission to graduate standing may be applied to a master’s degree program of study. A maximum of 18 graduate credits completed from a relevant University of Nevada, Reno graduate certificate may be applied to a master’s degree program of study. A maximum of 6 graduate S/U units may apply towards a master’s degree, excluding S/U units allowed for comprehensive examination, professional paper and thesis units, but including transfer units.
Coursework (30 units)
Please contact your graduate advisor for course approval. II. Total Units
Plan A (30 units) Plan B (30 units) Undergraduate Prerequisites
Incoming students should have a background in the core areas of Mechanical Engineering, including Statics, Dynamics, Thermodynamics, Dynamic Systems and Control, Fluid Mechanics, and Solid Mechanics. For students lacking in this background, the Mechanical Engineering Graduate Committee will specify undergraduate and graduate courses that must be taken before completion of the degree program. |
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