Conference Session

Teaching & Learning Dynamics, Vibration, and Mechanics More Broadly

Collection

2016 ASEE Annual Conference & Exposition

Authors

Geoff Rideout, Memorial University of Newfoundland

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Diversity

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Mechanics

habitual. Assigning marks to participationcomponents will be a necessary extrinsic motivator as long as the problems are “textbook-style”or “exam-type” problems. Students must practice the fundamentals, and this is best done withclosed-ended problems of manageable scope. However, students may not perceive that suchproblems are deeply meaningful or inspirational, even if effort is made to relate the problem toindustry. The author is optimistic that student engagement in unstructured active problem-solving sessions would be higher in a course where the instructional team acted as coaches forlarger, open-ended, societally impactful problems (ideally sourced by the students)[11].When generating the videos for the first iteration of the course, the

Conference Session

Teaching & Learning Dynamics, Vibration, and Mechanics More Broadly

Collection

2016 ASEE Annual Conference & Exposition

Authors

Shawn P. Gross, Villanova University; David W Dinehart, Villanova University

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Diversity

Tagged Divisions

Mechanics

Paper ID #16325Pre- and Post-Class Student Viewing Behaviors for Recorded Videos in anInverted Sophomore Mechanics CourseDr. Shawn P. Gross, Villanova University Dr. Shawn P. Gross is an associate professor in the Department of Civil and Environmental Engineering at Villanova University. He has as M.S.E. and Ph.D. degrees in Civil Engineering from the University of Texas at Austin, and a B.S.E. degree from Tulane University. He teaches undergraduate and graduate courses on mechanics and structural design (reinforced concrete, structural steel, masonry, and wood).Dr. David W Dinehart, Villanova University Professor and Chairman

Conference Session

Measuring Learning in Statics & Dynamics

Collection

2016 ASEE Annual Conference & Exposition

Authors

Nick Stites, Purdue University, West Lafayette; David A Evenhouse, Purdue University; Mariana Tafur-Arciniegas P.E., Purdue University, West Lafayette; Charles Morton Krousgrill, Purdue University, West Lafayette; Craig Zywicki, Purdue University; Angelika N Zissimopoulos, University of Chicago; David B Nelson, Purdue University, West Lafayette; Jennifer Deboer, Purdue University, West Lafayette; Jeffrey F Rhoads, Purdue University, West Lafayette; Edward J. Berger, Purdue University, West Lafayette

Tagged Divisions

Mechanics

State University in 2002, 2004, and 2007, respectively. Dr. Rhoads’ current research inter- ests include the predictive design, analysis, and implementation of resonant micro/nanoelectromechanical systems (MEMS/NEMS) for use in chemical and biological sensing, electromechanical signal processing, and computing; the dynamics of parametrically-excited systems and coupled oscillators; the behavior of electromechanical and thermomechanical systems, including energetic materials, operating in rich, multi- physics environments; and mechanics education. Dr. Rhoads is a member of the American Society for Engineering Education (ASEE) and the American Society of Mechanical Engineers (ASME), where he serves on the Design

Conference Session

Measuring Learning in Statics & Dynamics

Collection

2016 ASEE Annual Conference & Exposition

Authors

Meera NK Singh P.Eng, University of Calgary; Leszek Sudak P.Eng., University of Calgary; Philip Egberts P.Eng., University of Calgary

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Diversity

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Mechanics

also served as a committee member on the Natural Sciences and Engineering Research Council of Canada (NSERC) for a Strategic Network Grant. He has been a member of several International Research Organizing Committees and currently is the Treasurer for the Canadian Congress of Applied Mechanics. Throughout his time at the University of Calgary Les has taught many undergraduate and graduate courses in Mechanical Engineering as well as general engineering classes such as ENGG 349 and ENGG 317. He has consistently maintained a high Student Approval Rating and has been awarded numerous Undergraduate Teaching Excellence Awards. These include: the University of Calgary Student Union Teaching Excellence Award (2014), the

Conference Session

Homework, Learning, and Problem Solving in Mechanics

Collection

2016 ASEE Annual Conference & Exposition

Authors

Kai Jun Chew, Stanford University; Helen L. Chen, Stanford University; Beth Rieken, Stanford University; Autumn Turpin, Stanford University; Sheri Sheppard, Stanford University

Tagged Divisions

Mechanics

raised in the Bay Area. She has been working with the Designing Education Lab since January ’14.Dr. Sheri Sheppard, Stanford University Sheri D. Sheppard, Ph.D., P.E., is professor of Mechanical Engineering at Stanford University. Besides teaching both undergraduate and graduate design and education related classes at Stanford University, she conducts research on engineering education and work-practices, and applied finite element analysis. From 1999-2008 she served as a Senior Scholar at the Carnegie Foundation for the Advancement of Teaching, leading the Foundation’s engineering study (as reported in Educating Engineers: Designing for the Future of the Field). In addition, in 2011 Dr. Sheppard was named as co-PI of

Conference Session

Mechanics Classroom Demonstrations

Collection

2016 ASEE Annual Conference & Exposition

Authors

Joel Alejandro Mejia, Angelo State University; Wade H Goodridge, Utah State University; Benjamin James Call, Utah State University - Engineering Education; Steven David Wood, Utah State University

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Diversity

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Mechanics

-305. 11. Sanchez, K., Magana, A. J., Sederberg, D., Richards, G., Jones, G., & Tan, H. (2013). Investigating the Impact of Visuohaptic Simulations for Conceptual Understanding in Electricity and Magnetism. Paper presented at the 120th ASEE Annual Conference & Exposition, Atlanta, GA. 12. Moyer-Packenham, P. S., Salkind, G. W., Bolyard, J., & Suh, J. M. (2013). Effective choices and practices: Knowledgeable and experienced teachers' uses of manipulatives to teach mathematics. Online Journal of Education Research, 2(2), 18-3313. Olympiou, G., & Zacharia, Z. C. (2012). Blending physical and virtual manipulatives: An effort to improve students' conceptual understanding through science laboratory