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1. Workshop Physics and Related Curricula: A 25-Year History of Collaborative Learning Enhanced by Computer Tools for Observation and Analysis

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P. Laws, M. Willis, and D. Sokoloff, Phys. Teach., 53 (7), 401-406 (2015).

This article describes the 25-year history of development of the activity-based Workshop Physics (WP) at Dickinson College, its adaptation for use at Gettysburg Area High School, and…

https://doi.org/10.1119/1.4931006

2. Wake Forest University Physics demo videos

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Byline:: R. Matthews; Publisher: Wake Forest University

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The Tracker Video Modeling with Spreadsheets tutorial shows how to overlay spreadsheet model data on a video clip to compare theoretical predictions with the real world. The complete…

https://www.compadre.org/introphys/document/ServeFile.cfm?ID=14056&DocID...

4. PhET: Simulations That Enhance Learning

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C. Wieman, W. Adams, and K. Perkins, Science, 322 (5902), 682-683 (2008).

Research on learning shows that students learn better when they construct their own understanding of scientific ideas within the framework of their existing knowledge. To accomplish…

https://science.sciencemag.org/content/322/5902/682.full

5. Oersted Medal Lecture 2007: Interactive simulations for teaching physics: What works, what doesn’t, and why

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C. Wieman, K. Perkins, and W. Adams, Am. J. Phys., 76 (4&5), 393-399.

We give an overview of the Physics Educational Technology (PhET) project to research and develop web-based interactive simulations for teaching and learning physics. The design…

https://doi.org/10.1119/1.2815365

6. Tools for Scientific Thinking: Microcomputer-Based Laboratories for the Naive Science Learner [ Report ]

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Byline:: R. Thornton

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A promising new development in science education is the use of microcomputer-based laboratory tools that allow for student-directed data acquisition, display, and analysis.…

https://eric.ed.gov/?id=ED264130

7. Tools for scientific thinking-microcomputer-based laboratories for physics teaching

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R. Thornton, Phys. Educ., 22 (4), 230 - 238.

The author describes the use of a microcomputer-based laboratory in expanding physical intuition. An example is given with students interacting with a motion detector to produce…

https://doi.org/10.1088/0031-9120/22/4/005

8. Teaching Physics with Physlet®-Based Ranking Task Exercises

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A. Cox, M. Belloni, and W. Christian, Phys. Teach., 43 (9), 587-592 (2005).

In this paper, we describe how we use a pedagogical tool, Physlets®, in combination with a complementary pedagogical method, Ranking Task (RT) exercises, to enhance students'…

https://doi.org/10.1119/1.2136455

9. Tracker Video Analysis and Modeling JS [ Computer Program ]

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Byline:: D. Brown, W. Christian, and R. Hanson

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The JavaScript implementation of the Tracker Video Analysis and Modeling Tool is now available for beta testing. This online program runs within a web browser that supports HTML5 +…

https://tracker.physlets.org/trackerJS/

10. Experimenting from a Distance: Remote Controlled Lab experiments for teaching Physics at High-school

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Byline:: Publisher: Working Group, Prof. Jodl

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