2D Heat Flow Modeling and Measurement Make-and-Take
University of Wisconsin – River Falls, July 8 - 14, 2019 (PICUP and Immersion)
(5 set-ups available)
Participants in this Immersion will also need to register for the PICUP Summer Faculty Development Workshop.
The heat equation is well-understood and can be solved for simple geometries and boundary conditions. It’s also an interesting system for computational modeling. With quantitative data it’s possible to directly compare computational models and experimental data for an interesting upper-division undergraduate physics lab experiment. This apparatus provides that data.
The apparatus is made possible by the availability of individually-addressed temperature sensors and user-friendly microcontroller development systems. By combining sensors and microcontroller, one can precisely measure temperature at hundreds of points on an object simultaneously. Immersion participants will build their own apparatus to take back to their home institution.
In addition to providing an interesting combination of measurement and modeling, the apparatus affords students opportunity to gain experience working with microcontrollers, programming computers for data collection in LabVIEW, Python, or other languages, and experimental design.
Learning goals: Arduino programming, computer interfacing with data-collection devices, computational modeling, comparison of models and data, 3D data visualization.
Host and Mentor:
Eric Ayars has spent much of his career teaching Advanced Lab and Electronics for Scientists. His research is all based around working with undergraduate physics majors to develop new applications for modern microcontrollers and other devices in the physics lab.
Dr. Eric Ayars, Professor and Chair of Physics, CSU Chico, Campus Box 202, CSU Chico, Chico CA 95929-0202.
Email: email@example.com. Phone: (530) 898-6967.
Please note that the Jonathan F. Reichert Foundation has established a grant program to help purchase apparatus used in Laboratory Immersions. Limitations and exclusions apply, but generally speaking the foundation may support up to 40% of the cost of the required equipment. FPGAs are likely excluded; however, apparatus controlled by an FPGA might be supported.