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Full-Text Articles in Education
Evaluation Of A Health Education Program About Traumatic Brain Injury, Jane Mertz Garcia, Debra M. Sellers, Amy E. Hilgendorf, Debra L. Burnett
Evaluation Of A Health Education Program About Traumatic Brain Injury, Jane Mertz Garcia, Debra M. Sellers, Amy E. Hilgendorf, Debra L. Burnett
Debra M. Sellers
Objective: Our aim was to evaluate a health education programme (TBIoptions: Promoting Knowledge) designed to increase public awareness and understanding about traumatic brain injury (TBI) through in-person (classroom) and computer-based (electronic) learning environments. Design: We used a pre-post survey design with randomization of participants to classroom (N = 22) or electronic (N = 22) delivery of the programme, in classroom and computer laboratory settings on the campus of Kansas State University, Manhattan, KS. Method: Forty-four participants rated areas of knowledge about TBI prior to and after the programme experience. They also rated health programme quality and instructional strategies (e.g. video …
Understanding Student Pathways In Context-Rich Problems, Pavlo Antonenko, John Jackman, Piyamart Kumsaikaew, Rahul Marathe, Dale Niederhauser, Craig Ogilvie, Sarah Ryan
Understanding Student Pathways In Context-Rich Problems, Pavlo Antonenko, John Jackman, Piyamart Kumsaikaew, Rahul Marathe, Dale Niederhauser, Craig Ogilvie, Sarah Ryan
Sarah M. Ryan
In this paper we investigate the ways that students' problem-solving behaviors evolve when solving multi-faceted, context-rich problems within a structured, computer-based learning environment. During the semester, groups of two or three students worked on several problems that required drawing on more than one concept and, hence, could not be readily solved with simple "plug-and-chug" strategies. The problems were presented to students in a data-rich, online problem-solving environment that tracked which information items were selected by students as they attempted to solve the problem. The students also completed a variety of tasks, like entering an initial qualitative analysis into an online …
A Cooperative Molecular Modeling Exercise— The Hypersurface As Classroom, Christopher J. Cramer, Bethany L. Kormos, Paul Winget, Vanessa M. Audette, Jeremy M. Beebe, Carolyn S. Brauer, W.Russ Burdick, Eric W. Cochran, Brian M. Eklov, Timothy J. Giese, Yongseok Jun, Lakshmi S.D. Kesavan, Christopher R. Kinsinger, Mikhail E. Minyaev, Ramkumar Rajamani, Jonathon S. Salsbury, John M. Stubbs, Jack T. Surek, Jason D. Thompson, Vincent A. Voelz, Collin D. Wick, Ling Zhang
A Cooperative Molecular Modeling Exercise— The Hypersurface As Classroom, Christopher J. Cramer, Bethany L. Kormos, Paul Winget, Vanessa M. Audette, Jeremy M. Beebe, Carolyn S. Brauer, W.Russ Burdick, Eric W. Cochran, Brian M. Eklov, Timothy J. Giese, Yongseok Jun, Lakshmi S.D. Kesavan, Christopher R. Kinsinger, Mikhail E. Minyaev, Ramkumar Rajamani, Jonathon S. Salsbury, John M. Stubbs, Jack T. Surek, Jason D. Thompson, Vincent A. Voelz, Collin D. Wick, Ling Zhang
Eric W. Cochran
Quantum chemistry has been a staple of undergraduate curricula for several decades. For the most part, however, it has been the rare course in quantum chemistry that advances much beyond the hydrogen atom (or perhaps H2) in terms of describing the electronic structure of real molecular systems. Driven in part by staggering advances in computer technology during the last 15 years or so, which have rendered possible on a laptop calculations that once would have taxed the largest mainframes available, this situation now seems to be changing (1–3).