Displaying all 5 results
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- Hybrid and Online Learning
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- 2021 ASEE Virtual Annual Conference Content Access
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- Tiffany A Mathews, Penn State University; Kirstin Purdy Drew, Pennsylvania State University; Kristin Ann Dreyer, Center for Nanoscale Science (an NSF funded MRSEC)
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- Diversity
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- Materials
historically underrepresented groupsin STEM, and the PREM program, which is designed to increase diversity in materials researchdisciplines by creating research/education partnerships between minority serving institutions(MSI) and universities which are “leading sources of degrees in materials-related fields” [5].Traditionally, our PREM partners send a select group of their PREM-funded student scholars tocontinue their materials science research at Penn State during the 10-week REU summerprogram. PREM REU student-scholars are in a unique position because a summer REU at PennState is a continuation of their own research from their home institution, integrated within thelarger PREM-MRSEC collaboration. Thus, an intrinsic goal of the in-person PREM
- Conference Session
- Hybrid and Online Learning
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- 2021 ASEE Virtual Annual Conference Content Access
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- Alison K. Polasik, The Ohio State University; Anastasia Marie Rynearson, Campbell University
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Assistant Professor in the Mechanical Engineering Department at Kanazawa Technical College and Future Faculty Fellow teaching First-Year Engineering at Purdue University. She focused on integrated STEM curriculum development as part of an NSF STEM+C grant as a Postdoctoral Research Assistant through INSPIRE in the School of Engineering Education at Purdue University Her current research interests focus on early P-12 engineering education and identity development. American c Society for Engineering Education, 2021IntroductionStudents need context to translate learning to deeper levels of knowledge and enduringunderstandings. Academics, many of whom have spent little to
- Conference Session
- Computational Tools & Analysis
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- 2021 ASEE Virtual Annual Conference Content Access
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- Jacob Z. Kelter, Northwestern University; Jonathan Daniel Emery, Northwestern University; Uri Wilensky, Northwestern University
- Tagged Divisions
- Materials
M. Asta, “Current status and outlook of computational materials science education in the US,” Modelling Simul. Mater. Sci. Eng., vol. 13, no. 2, p. R53, 2005, doi: 10.1088/0965-0393/13/2/R01.[14] K. Thornton, S. Nola, R. Edwin Garcia, M. Asta, and G. B. Olson, “Computational materials science and engineering education: A survey of trends and needs,” JOM, vol. 61, no. 10, p. 12, Oct. 2009, doi: 10.1007/s11837-009-0142-3.[15] National Research Council (U.S.), Ed., Integrated computational materials engineering: a transformational discipline for improved competitiveness and national security. Washington, D.C: National Academies Press, 2008.[16] R. Mansbach et al., “Reforming an undergraduate materials science curriculum
- Conference Session
- Computational Tools & Analysis
- Collection
- 2021 ASEE Virtual Annual Conference Content Access
- Authors
- Kisung Kang, University of Illinois at Urbana - Champaign; Matthew D. Goodman, University of Illinois at Urbana - Champaign; Jessica A. Krogstad, University of Illinois at Urbana - Champaign; Cecilia Leal, University of Illinois at Urbana - Champaign; Pinshane Y. Huang, University of Illinois at Urbana-Champaign; Andre Schleife, University of Illinois at Urbana - Champaign
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courseAbstractOver the past years, our team has taken a concerted effort to integrate computational modules intocourses across the undergraduate curriculum, in order to equip students with computational skillsin a variety of contexts that span the field of Materials Science and Engineering. This effort hasproven sustainable during the recent period of online transition of many courses, illustrating oneof the benefits of computational modules. The most recent addition to our set of modules includeda visualization component that was incorporated into our introductory freshman course for thefirst time in Fall 2019. Students can perform this module either using local computer labs, accessthose resources remotely, or via their own computers. In the Fall of 2020
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- Hybrid and Online Learning
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- 2021 ASEE Virtual Annual Conference Content Access
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- Susan P. Gentry, University of California, Davis; Gianmarco Sahragard-Monfared, University of California, Davis; Edward Thomas Conley, University of California, Davis
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- Materials
Paper ID #34773Re-inventing a Mechanical Properties of Materials Laboratory Course forOnline LearningDr. Susan P. Gentry, University of California, Davis Dr. Susan P. Gentry is an Associate Professor of Teaching Materials Science and Engineering at the Uni- versity of California, Davis. In her current position at UC Davis, she is integrating computational modules into the undergraduate and graduate materials curriculum. She is specifically interested in students’ com- putational literacy and life-long learning of computational materials science tools.Gianmarco Sahragard-Monfared, University of California, Davis Gianmarco