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The effect of current on a magnet In 1819, Hans Christian Øersted placed a compass needle near a wire in a circuit. When a switch in the circuit was closed,

Published byAnna Rice Modified over 7 years ago

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Presentation on theme: "The effect of current on a magnet In 1819, Hans Christian Øersted placed a compass needle near a wire in a circuit. When a switch in the circuit was closed,"— Presentation transcript:

1 The effect of current on a magnet In 1819, Hans Christian Øersted placed a compass needle near a wire in a circuit. When a switch in the circuit was closed, the compass needle moved just as if the wire were a magnet.

2 A magnet made with wires and electric current is called an electromagnet. The electromagnet produces a magnetic field exactly the same as a permanent magnet with its north and south poles.

3 The right hand rule When the fingers of your right hand curl in the direction of current, your thumb points toward the electromagnet’s north pole. You can switch the north and south poles of an electromagnet by reversing the direction of the current in the coil.

4 Magnetic forces and electric current The metals iron, nickel, and cobalt have strong magnetic properties. Both permanent magnets and iron owe their magnetic properties to their atoms. Iron atoms can easily rotate their magnetic poles to line up with neighboring atoms.

5 Electric generators and induction The process of using a moving magnet to create electric current or voltage is called electromagnetic induction. A moving magnet induces electric current to flow in a circuit. The word “induce” means “to cause to happen.”

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