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Planar charged electrodes guide electrons

Explore the properties and applications of electric fields using interactive simulations and resources. Gain expertise in field lines, dipole interactions, and more. Enhance your knowledge of charged particles' influence on surrounding space.

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Planar charged electrodes guide electrons

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  1. Cathode Ray Tube Planar charged electrodes guide electrons

  2. Application of Electric Fields: E-Ink

  3. An Expert in Electric Fields Electric eel

  4. Field Lines Around Eel’s Body

  5. Ampullae of Lorenzini: Shark Electric Field Sensors

  6. Charges Influence Surrounding Space http://phet.colorado.edu/sims/charges-and-fields/charges-and-fields_en.html http://www.falstad.com/vector3de/ http://www.cco.caltech.edu/~phys1/java/phys1/EField/EField.html

  7. We believe in electric fields as physically real because there is an influence that can be independent of the particle that created the field .

  8. Field Lines of Electric Dipole

  9. If I put a charged point particle (blue dot) on a field line, then the particle will move so as to follow the field line. A True B False

  10. At which point is the electric field stronger? • Point A. • Point B. • Not enough information to tell.

  11. Can Electric Field Vectors Cross? (A) Yes (B) No (C) No idea

  12. Which is the electric field direction at the black dot? E. None of these. Slide 25-101

  13. What is the direction of the electric field at the dot? E. None of these. Slide 26-22

  14. Can Electric Field Lines Cross? (A) Yes (B) No (C) No idea

  15. At the dot, the y-component of the electric field due to the shaded region of charge is A. B. C. D. E.

  16. What is E field magnitude at point P distance y from midline of two infinite charged lines A B C D

  17. Which dipole experiences no net force in the electric field? A. • Dipole A. • Dipole B. • Dipole C. • Both dipoles A and C. • All three dipoles. B. C.

  18. Which dipole experiences no net torque in the electric field? A. • Dipole A. • Dipole B. • Dipole C. • Both dipoles A and C. • All three dipoles. B. C. Slide 26-90

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