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Electrostatics (SAM)
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 | Overview and Learning ObjectivesStudents learn that opposite charged particles attract to each other and particles with the same sign of charge repel each other. In addition they discover out that Coulomb's Law can be calculated by looking at the distance and the charge of each particle. They end the activity looking at the screening effect in systems such as the watery environment of cells. Students will be able to: • Explain how a neutral atom can become a charged particle, an ion. • Define Coulomb forces as a result of like charges repelling each other and unlike charges attracting. • Determine that the force generated between atoms is dependent on the amount of charge they carry and the distance between them. • Explore the mathematical relationship described in Coulomb equations. • Explain polarization in terms of charge redistribution. • Give an example of how screening is at work in a biological system, such as a cell. |
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 | Classroom PracticeTeacher Guide: http://sam.concord.org/publications/teacher-guides/electrostatics.ver6.pdf |
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 | Central ConceptsKey Concept: Additional Related ConceptsPhysics/Chemistry
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 | Extensions and ConnectionsFermi Lab's ARISE Project suggests the following enhancement to this SAM unit: http://www.concord.org/~barbara/SAM/ARISE/ARISE_SAM_electrostatics.pdf |
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 | Activity CreditsCreated by CC Project: SAM using Molecular Workbench |
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Last Update: 11/25/2008
Maintainer: CC Web Team (webmaster@concord.org)
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Copyright © 2008, The Concord Consortium.
All rights reserved.
These materials are based upon work supported
by the National Science Foundation under grant numbers
9980620, ESI-0242701 and EIA-0219345
Any opinions, findings, and conclusions or recommendations expressed in this
material are those of the author(s) and do not necessarily reflect
the views of the National Science Foundation.
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