Displaying all 4 results
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 2
- Collection
- 2021 ASEE Virtual Annual Conference Content Access
- Authors
- Carol S. Stwalley, Purdue University at West Lafayette (COE); Robert Merton Stwalley III P.E., Purdue University at West Lafayette (COE); Virginia Lynn Booth-Womack, Purdue University at West Lafayette (COE); Grace Lynn Baldwin; Sarah Larose, Purdue University
- Tagged Topics
- Diversity
- Tagged Divisions
- Biological and Agricultural Engineering
research program. Some of thestudents were introduced to Agricultural & Biological Engineering (ABE) projects through thispartnership opportunity. These students were paired with an ABE faculty member in theirresearch area to conduct their initial project in a university setting. RS students were thenallowed to direct a project of their choosing within the Multi-disciplinary Engineering ResearchFellowship (MERF). The MERF opportunity provided students with a self-directed project tohelp prepare them for their senior capstone project within their discipline. Students were requiredto document their projects and formally write-up their experimental results. The LSAMP andMERF projects provided valuable experiential components to the RS students
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 2
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Tara Gupte Wilson, Ohio State University; Derek Breid, Saint Vincent College; Ann D. Christy P.E., Ohio State University; Clarissa Belloni, Ohio State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Biological and Agricultural Engineering
these humanitarian engineeringprograms is that this may be a way to improve retention of women within engineering.Humanitarian courses, including humanitarian engineering senior design capstones and service-learning study abroad programs, have higher enrollment of women than their traditionalcounterparts. Analyzing the motivations of participants in these programs reveals that womengravitate towards projects that allow them to become a “global professional” and “make adifference” while men want to “make a difference” by working on “exciting immersive real-world projects.” Thus, women seem to prefer projects that make a difference to other peoplewhile men choose work that they personally find to be exciting. However, within the existingresearch
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 2
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Lisa Deane Morano, University of Houston, Downtown; Vassilios Tzouanas, University of Houston, Downtown
- Tagged Topics
- Diversity
- Tagged Divisions
- Biological and Agricultural Engineering
are skills most employers are looking for. Suchinnovation is not unusual for well-funded California universities, but we are excited to be trying similarinnovations at an urban university in Texas. There is also literature in sustainability curriculum to suggestthat community partnerships can be an enormous asset.[16] We are in agreement that these partnershipscan be invaluable. We have engaged in one group project at a community garden (mentioned above). Asfield trips we have visited local sustainable energy companies, urban farms science labs and non-profitsfor field trips. As students have started enrolling in the Minor in Sustainability most of them haveengaged with our sustainability for their capstone projects. This has strengthened
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 1
- Collection
- 2021 ASEE Virtual Annual Conference Content Access
- Authors
- Tara Gupte Wilson, Wright State University; Ashley Nicole Venturini, Ohio State University; Ann D. Christy P.E., Ohio State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Biological and Agricultural Engineering
thermodynamics and fluid mechanics courses. Her research interests include the use of natural rubber in medical devices and engineering education.Dr. Ann D. Christy P.E., Ohio State University Ann D. Christy, PE, is a professor of Food, Agricultural, and Biological Engineering and a professor of Engineering Education at the Ohio State University (OSU). She earned both her B.S. in agricultural engineering and M.S. in biomedical engineering at OSU, and her Ph.D. in environmental engineering at Clemson University. She worked for an engineering consulting firm before entering academia and continues to collaborate with the consulting industry. She has taught courses in bioenergy, biological en- gineering, capstone design, HVAC