Displaying all 6 results
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 2
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Rachel Ibach, University of Nebraska, Lincoln; Jennifer Keshwani, University of Nebraska, Lincoln; Deepak R. Keshwani, University of Nebraska, Lincoln; Sydney E. Everhart, University of Nebraska, Lincoln; Leah Sandall, University of Nebraska, Lincoln
- Tagged Topics
- Diversity
- Tagged Divisions
- Biological and Agricultural Engineering
programwith career professionals (mentors) and undergraduate college students (ambassadors). Duringprogram activities youth from underrepresented groups are paired with a mentor employed in aSTEM-related agriculture field. Cultivate ACCESS ambassadors are University of Nebraska-Lincoln students who study a STEM-related major. Mentors and ambassadors are recruited fromdiverse backgrounds that reflect the demographics of high school scholars. Scholars receivementoring from an adult and a peer who physically looks like them and can share personalstories of overcoming obstacles and facing adversity that youth may have encountered.Participation in mentoring experiences aids students in gaining scientific knowledge and engagesthem in career exploration and
- 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
all four courses were compared to determine if student grades reflect a differencewith the addition of a humanitarian engineering project. The goal of this study is to betterunderstand whether humanitarian engineering projects may be used to improve the motivation,retention and educational outcomes of female engineering students.IntroductionHistorically, there has been a discrepancy in engineering between the retention rates of thosestudents who identify as male versus those identifying as female, with women earning 21.9% ofall engineering bachelor’s degrees [1]. Different engineering disciplines have been moresuccessful in increasing representation of women than others, specifically in the fields ofenvironmental, biomedical, and biological
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 1
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Erin Ingram, University of Nebraska, Lincoln; Jennifer Keshwani, University of Nebraska, Lincoln; Tammera J. Mittelstet, University of Nebraska, Lincoln; Julie Thomas, University of Nebraska, Lincoln
- Tagged Topics
- Diversity
- Tagged Divisions
- Biological and Agricultural Engineering
, and uncovering students’ ideas.One of the greatest strengths of Garden TOOLS has been the ability to meet the diverse needs andinterests of formal and informal educators working within a variety of situational constraints (i.e. limitedtime, staff availability, access to outdoor spaces, etc.). The pilot PD trainings conducted with manydifferent audiences have provided a wealth of qualitative data in the form of both participants feedbackand facilitator reflection that has been used to identify successes and challenges to the Garden TOOLSprogram and can be used to guide future iterations of PD trainings.Overall, Garden TOOLS PD trainings have received an enthusiastic response from participants with
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 1
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Hamidreza Sharifan, Texas A&M University; Janie M. Moore, Texas A&M University
- Tagged Topics
- Diversity
- Tagged Divisions
- Biological and Agricultural Engineering
need for further analysis of the time frame that students spent during theacademic year and how much of their daily, weekly, and monthly is allocated for using sharedspaces. This information can be used for many different purposes, including the seminar or eventadvertisement, as well as providing additional supporting sources for educational purposes. 3Figure 1. The usage of the co-curricular spaces in campus climate among the underrepresentedgroupsFigure 2 is a detailed analysis of the co-curricular spaces within a time frame of daily, weekly, andmonthly uses. All the responses reflect the behavior of minority students towards using theavailable co-curricular areas. A comparison with the users
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 2
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Youngmi Kim, University of Wisconsin, River Falls
- Tagged Divisions
- Biological and Agricultural Engineering
experiments, and draw conclusions from the evidence. Inaddition, most of the students in the class indicated little or no previous exposure to PBL-basedlabs, which also contributed to this perception. However, the open-ended responses regardingwhat the students did or did not like about the labs reflected a consistent theme that students feltPBL provided a highly engaging, hands-on experience and that the lab activities were morerelevant to real-life problems. In terms of the time commitment required to complete each labmodule, some students stated that they preferred the modified lab structure (a multi-week labtask) to a weekly lab, because it provided them with a greater degree of flexibility in schedulingwith other team members to complete the lab
- Conference Session
- Biological and Agricultural Engineering Division Technical Session 1
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Maria Pantoja, California Polytechnic State University, San Luis Obispo; Franz J. Kurfess, California Polytechnic State University, San Luis Obispo; Irene Humer, California Polytechnic State University, San Luis Obispo
- Tagged Divisions
- Biological and Agricultural Engineering
of Grape and Wine Research, 23(1), 120–124. https://doi.org/10.1111/ajgw.12243.[5] Lu, J., Ehsani, R., Shi, Y., Abdulridha, J., de Castro, J., and Xu, Y. (2017) “Field detection of anthracnose crown rot in strawberry using spectroscopy technology” Elsevier Journal of Computer and Electronics in Agriculture. Volume 135, 1 April 2017, Pages 289-299.[6] Misaghi, F., Dayyanidardashti, S., Mohammadi, K., and Ehsani, R. (2004). “Application of Artificial Neural Network and Geostatistical Methods in Analyzing Strawberry Yield Data” DOI: 10.13031/2013.16172.[7] Li, H., Li, T., Gordon, R., Asiedu, S., and Hu, K. (2010) “Strawberry plant fruiting efficiency and its correlation with solar irradiance, temperature and reflectance