Displaying all 6 results
- Conference Session
- Multidisciplinary Service and Outreach Projects
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Ahmed Cherif Megri, North Carolina A&T State University; Sameer Hamoush, North Carolina A&T State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
. 14Dr. AC. Megri 2020 ASEE Annual Conference Figure 14: Outcome 3 from ABET 15Dr. AC. Megri 2020 ASEE Annual ConferenceReferences:[1] Abou Hashem, Y., Dayal, M., Savanah, S., & Strkalj, G. (2015). The application of 3D printing inanatomy education. Med Educ Online, 20, 29847.[2] Berry, R. Q., III, Bull, G., Browning, C., Thomas, C. D., Starkweather, K., & Aylor, J. H. (2010).Preliminary considerations regarding use of digital fabrication to incorporate engineering designprinciples in elementary mathematics education. Contemporary Issues in Technology and TeacherEducation, 10(2), 167-172.[3
- Conference Session
- Multidisciplinary Course Development
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Harold R. Underwood, Messiah College; Donald George Pratt, Messiah College
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
models, and solve for circuitrelated quantities in various component configurations. For practical applications, otherelectronic devices such as light emitting diodes and operational amplifiers may be introduced,without a detailed analysis of what happens inside the “black box.” A traditional treatmentbegins with circuits having direct current (DC) sources, moves to first and second order timedependent responses of R, L, and/or C combinations, and ends with alternating current (AC)circuits. However, the nature and behavior of circuits in such a first course is usually assumed toinvolve voltages that have a continuous range of possibilities; that is, it has usually been
- Conference Session
- Multidisciplinary Engineering Design I
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Benjamin Goldschneider, Virginia Tech; Nicole P. Pitterson, Virginia Tech
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
holds a PhD in Engineering Education from Purdue University and other degrees in Manufacturing Engineering from Western Illinois University and a B.Sc. in Electrical and Electronic Engineering from the University of Technology, Jamaica. Her research interest is eliciting conceptual understanding of AC circuit concepts using active learning strategies. c American Society for Engineering Education, 2019 Work in Progress – Designing a Capstone Course Towards Effective Collaborative Behaviors in Interdisciplinary EnvironmentsAbstractSenior capstone classes are unique and crucial experiences for undergraduate students, in thatthey provide long-term, often synthesis-based
- Conference Session
- Multidisciplinary Engineering Division Poster Session
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Hua Li, Texas A&M University-Kingsville; Mohamed Abdelrahman, Texas A&M University-Kingsville
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
independently and collaboratively within a team; 5) recognize the different and sometimescontradictory issues related to a research question. Through participation in cutting-edge researchwith faculty mentors working at the forefront of their respective disciplines, students will engagein complex scientific studies on sustainable energy research topics.Reference:[1] Lund, P.D., Fast Market Penetration of Energy Technologies in Retrospect with Application to Clean EnergyFutures. Applied Energy, 2010. 87: p. 3575-3583.[2] Brown, M.A., Levine, M. D., Short, W., and Koomy, J.G., cenarios for a clean energy future. Energy Policy,2001. 29: p. 1179-1196.[3] Change, I.P.o.C., Climate Change 2007: The Physical Science Basis.Contribution of Working Group I to
- Conference Session
- Multidisiplinary Student Research Experiences
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Jeanne R. Garland, New Mexico State University; Michele A. Auzenne, New Mexico State University; Ricardo B. Jacquez, New Mexico State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
in STEM are disproportionally enrolled in community colleges,with almost half (44%) of African American students and over half of Hispanic and American Page 26.1576.6Indian students (52% and 55%, respectively) choosing community colleges as their institution ofhigher education. Despite this large pool of a diverse and motivated students, Hoffman et al.report that an alarmingly low number of minority and female students complete two-yearassociate’s degrees in STEM – only 11.08% of Hispanic community college students in 2006(2010).12 Clearly, it is crucial that we develop and support the talents and intentions ofcommunity college students
- Conference Session
- Edifying Engineering Education through Multidisciplinary Efforts
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Behnaam Aazhang, Rice University; Randal T. Abler, Georgia Institute of Technology; Jan P. Allebach, Purdue University, West Lafayette (College of Engineering); L. Franklin Bost, Virginia Commonwealth University; Joseph R. Cavallaro, Rice University; Edwin K. P. Chong Ph.D., Colorado State University; Edward J. Coyle, Georgia Institute of Technology; Jocelyn B. S. Cullers, Boise State University; Sonya M. Dennis, Morehouse College; Yingfei Dong, University of Hawai'i at Mānoa; Prasad N. Enjeti, Texas A&M University; Afroditi V. Filippas, Virginia Commonwealth University; Jeffrey E. Froyd, Texas A&M University; David Garmire, University of Hawai'i at Mānoa; Jay George; Brian E. Gilchrist, University of Michigan; Gail S. Hohner, University of Michigan; William L. Hughes, Boise State University; Amos Johnson, Morehouse College; Charles Kim, Howard University; Hale Kim, INHA University; Robert H. Klenke, Virginia Commonwealth University; Magdalini Z. Lagoudas, Texas A&M University; Donna C. Llewellyn, Boise State University; Yung-Hsiang Lu, Purdue University, West Lafayette (College of Engineering); Kevin James Lybarger, University of Washington; Stephen Marshall P.E., University of Strathclyde; Subra Muralidharan, University of California, Davis; Aaron T. Ohta, University of Hawai'i at Mānoa; Francisco Raul Ortega, Florida International University; Eve A. Riskin, University of Washington; David M. Rizzo; Candace Renee Ryder, Colorado State Univerisity; Wayne A. Shiroma, University of Hawai'i at Mānoa; Thomas J. Siller, Colorado State University; J. Sonnenberg-Klein, Georgia Institute of Technology; Seyed Masoud Sadjadi, Florida International University; Scott Munro Strachan, University of Strathclyde; Mohsen Taheri, Florida International University; Gary L. Woods, Rice University Department of Electrical & Computer Engineering; Carla B. Zoltowski, Purdue University, West Lafayette (College of Engineering); Brian C. Fabien, University of Washington; Phiilp Johnson, University of Hawaii at Manoa; Robert Collins, Univesrity of Strathclyde at Georgia Tech; Paul Murray
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
Irving, Texas. His research interests are signal processing, information theory, and their applications to neuroengineer- ing and wireless communication and networks. Particular focus is on the interplay of communication systems and networks; including network coding, user cooperation, spectrum sharing, opportunistic ac- cess, and scheduling with different delay constraints as well as millimeter wave communications. In neuro-engineering, his interests are on modeling neuronal circuits connectivity and the impact of learning on connectivity, on real-time closed-loop stabilization of neuronal systems to mitigate disorders such as epilepsy, Parkinson, depression, and obesity, on developing an understanding of