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Mechanical Engineering

Geoff Wehmeyer

Assistant Professor, Mechanical Engineering

Public Rice profile source

Average rating

3.6

17 temporary mock ratings

Difficulty

3.4

course-linked average

Courses

7

in seeded sections

Public profile

Research areas

Dr. Wehmeyer uses experimental and theoretical techniques to study heat transfer, with an emphasis on nanoscale heat conduction. This research is motivated by applications such as microelectronic thermal management, solid-state energy conversion, and heat-assisted magnetic recording, all of which require a detailed understanding of how heat is conducted through nanostructures and across interfaces. Dr. Wehmeyer seeks to first understand the mechanisms of heat transfer at small lengthscales, and then to use this fundamental knowledge in the design of macroscopic thermal management and energy conversion technologies. Research projects of current interest include developing ultra-high spatial resolution temperature mapping tools, measuring thermal properties of anisotropic thin films, modeling heat transport in superlattices, and building active and nonlinear thermal systems for improved thermal control.

Courses taught

APPL 800

Research And Thesis

Thesis research under the supervision of faculty. Repeatable for Credit.

Applied PhysicsNone1-15 credits
3.59.5hAjayan, Pulickel, Alabastri, Alessandro, Azhang, Behnam, Bagchi, Kushal, Baraniuk, Richard G, Biswal, Sibani, Brake, Matthew, Bulchandani, Vir, Chan, Anthony, Chen, Songtao, Dai, Pengcheng, Grande-Allen, K. Jane, Gustavsson, Anna-Karin, Halas, Naomi, Han, Yimo, Huang, Shengxi, Hulet, Randy, Kampouri, Stavroula, Kemere, Caleb, Killian, Thomas, Kono, Junichiro, Lee, Hae Yeon, Luan, Lan, Ma, Xuedan, Marciel, Amanda, Martin, Lane, Mohite, Aditya, Morosan, Emilia, Naik, Gururaj, Natelson, Doug, Nordlander, Peter, Pagano, Guido, Patel, Ankit, Patel, Tirthak, Pu, Han, Raphael, Rob, Robinson, Jacob, Sabharwal, Ashutosh, Sempionatto Moreto, Juliane, Shah, Nishal, Shee, James, Si, Qimiao, Szablowski, Jerzy, Tang, Ming, Tkaczyk, Tomasz, Tour, James, Tringides, Christina, Veeraraghavan, Ashok, Verduzco, Rafael, Vlassakis, Julea, Wehmeyer, Geoff, Wittung Stafshede, Pernilla, Wolynes, Peter, Wong, Michael, Xie, Chong, Xie, Yonglong, Yi, Ming, Zhang, Yirui Arlene, Zhao, Yuji, Zhu, Hanyu

MECH 483

Conduction Heat Transfer

Advanced study of heat transfer by conduction, with a focus on analytical solutions of partial differential equation in linear heat conduction problems. Graduate/Undergraduate Equivalency: MECH 583. Mutually Exclusive: Cannot register for MECH 583 if student has credit for MECH 483. Cross-list: MECH 583. Mutually Exclusive: Cannot register for MECH 483 if student has credit for MECH 583.

Mechanical EngineeringNone3 credits
3.47.4hWehmeyer, Geoff

MECH 490

Mech Eng Research Projects

Independent investigation of a specific topic or problem in mechanical engineering. Research under the direction of a selected faculty member. Repeatable for Credit.

Mechanical EngineeringNone1-4 credits
4.17.2hAvila, Raudel, Brake, Matthew, Davydov, Sasha, Dugnani, Roberto, Elliott, Matthew, Fregly, BJ, Ghonasgi, Keya, Ghorbel, Fathi, Higgs, C. Fred, Kong, Yong Lin, Lillehoj, Peter, Moreto, Jose, O'Malley, Marcia, Preston, Daniel, Sanchez, Vanessa, Schaefer, Laura, Tezduyar, Tayfun, Trevas, David, Wehmeyer, Geoff, Yavas, Denizhan

MECH 583

Conduction Heat Transfer

Advanced study of heat transfer by conduction, with a focus on analytical solutions of partial differential equation in linear heat conduction problems. Graduate/Undergraduate Equivalency: MECH 483. Mutually Exclusive: Cannot register for MECH 583 if student has credit for MECH 483. Cross-list: MECH 483. Mutually Exclusive: Cannot register for MECH 583 if student has credit for MECH 483.

Mechanical EngineeringNone3 credits
3.210.2hWehmeyer, Geoff

MECH 603

Graduate Research Survey

For graduate students entering the graduate program with a fellowship, a lab rotation program is offered in which they have the opportunity to survey multiple research labs before formally choosing a PI. This course is broken into two parts. The first part is focused on advising the students about the transition to graduate school, how to approach research problems, good research habits, professional development, and other advising. The second part of the course is a focused review of topics germane to their chosen PI’s research area.

Mechanical EngineeringNone3 credits
4.19.2hWehmeyer, Geoff

MECH 611

Independent Study

Repeatable for Credit.

Mechanical EngineeringNone1-9 credits
3.36.3hAvila, Raudel, Brake, Matthew, Davydov, Sasha, Fregly, BJ, Ghonasgi, Keya, Ghorbel, Fathi, Higgs, C. Fred, Kong, Yong Lin, Lillehoj, Peter, O'Malley, Marcia, Preston, Daniel, Sanchez, Vanessa, Spanos, Pol, Tezduyar, Tayfun, Wehmeyer, Geoff

MECH 800

Research And Thesis

This course is for MS or PhD students working on their thesis research. Repeatable for Credit.

Mechanical EngineeringNone1-15 credits
3.27.4hAvila, Raudel, Brake, Matthew, Davydov, Sasha, Fregly, BJ, Ghonasgi, Keya, Ghorbel, Fathi, Higgs, C. Fred, Kong, Yong Lin, Lillehoj, Peter, O'Malley, Marcia, Preston, Daniel, Sanchez, Vanessa, Schaefer, Laura, Spanos, Pol, Tezduyar, Tayfun, Wehmeyer, Geoff

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