Manjula Devi Sharma
the UniServe Science
This resource is a set of activity-based physics tutorials and worksheets on electricity and magnetism, developed for more advanced students who have successfully completed a course in high school physics. It was designed to be implemented in student-centered cooperative learning environments. The tutorials feature thematic workshops across a broad range of topics relating to electric field and potential, Coulomb's Law, voltage and current, circuits, electromagnetism, and electrical safety. Workshop Tutorials were deliberately designed to not be part of the formal assessment procedure, allowing students to openly discuss problems in physics and explore solutions in a stress-free environment. Solutions are provided to students as they leave the class, giving them immediate feedback on their ideas. All materials, including worksheets/solutions and activities, are available in Word and PDF formats.
Created by the University of Sydney Physics Education Research group (SUPER) this item is part of a larger collection of activity-based physics tutorials.
Sharma, M. (2006, August 27). Workshop Tutorials for Physics: Electricity and Magnetism - Regular. Retrieved June 24, 2019, from UniServe Science: http://www.physics.usyd.edu.au/super/physics_tut/elecr.html
%0 Electronic Source %A Sharma, Manjula %D August 27, 2006 %T Workshop Tutorials for Physics: Electricity and Magnetism - Regular %I UniServe Science %V 2019 %N 24 June 2019 %8 August 27, 2006 %9 application/pdf %U http://www.physics.usyd.edu.au/super/physics_tut/elecr.html
Disclaimer: ComPADRE offers citation styles as a guide only. We cannot offer interpretations about citations as this is an automated procedure. Please refer to the style manuals in the Citation Source Information area for clarifications.
This is the full collection of activity-based physics materials by the authors, which includes units on mechanics, properties of matter, waves, thermodynamics, and quantum physics. Each topic is broken down into introductory and calculus-based levels.