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AC - DC: What's the Difference? Edison Invents
Depending on your mood, there are two ways to navigate Edison 
Invents!  The fun way is to play the Flash concentration game 
(match Edison's inventions) and then to travel around the game 
board, clicking on the icons representing phases of Edison's 
life.  The more direct route (for those of you with homework 
due) is to click on Edison's Story.		 . Theater of Electricity
 What is Electricity Electicity and Magnetism Projects Static Electricity .
Museum of Science - Atoms Family - Frankenstein 

This resource contains educational activities relating to different forms of energy presented by famous gothic horror characters. Frankenstein presents information about various forms of electricity and electrical safety. Part of the Science Learning Network.		 .
Lightning @ nationalgeographic.com

Explore static electricity at this National Geographic site.
Benjamin Franklin and Electricity 

Information about Ben's contributions to the study of electricity. Includes activities.

Electricity Activities

Exploratorium Snack: Exploratorium Science Snacks

You'll find some great activities to help you learn about electricity at this site.
Electricity and Magnetism Table Of Contents

This site offers a series of experiments about electricity and magnetism designed for use in the fourth grade.
Brainpop - Electricity
Five topics include a general introduction  to electricity, static electricity, batteries, energy sources, thunderstormsand atoms. Each topic page (geared toward upper elementary students) features an animated movie, a quiz ("What are the three components of a circuit?"), a printable activity sheet and a try-it-yourself experiment.

Safety Tips


Kids' Place
Ten Facts about Magnets 
(from the book Driving Force) 
  •  North poles point north, south poles point south. 
  •  Like poles repel, unlike poles attract. 
  •  Magnetic forces attract only magnetic materials. 
  •  Magnetic forces act at a distance. 
  •  While magnetized, temporary magnets act like permanent magnets. 
  •  A coil of wire with an electric current flowing through it becomes a magnet. 
  •  Putting iron inside a current-carrying coil increases the strength of the electromagnet. 
  •  A changing magnetic field induces an electric current in a conductor. 
  •  A charged particle experiences no magnetic force when moving parallel to a magnetic field, but when it is moving perpendicular to the field it experiences a force perpendicular to both the field and the direction of motion. 
  • A current-carrying wire in a perpendicular magnetic field experiences a force in a direction perpendicular to both the wire and the field.

 
Please contact Esther Weiner for suggestions.