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Electromagnetism.

Published byBlake Lambert Modified over 6 years ago

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Presentation on theme: "Electromagnetism."— Presentation transcript:

1 Electromagnetism

2 Magnetism from Electricity
1. Electric current can produce a magnetic field and the direction of that field depends on the direction of the current.

3 Solenoids 2. Magnetic fields can be increased by increasing the amount of current. A solenoid is a coil of wire that produces a magnetic field when carrying an electric current.

4 How to increase magnetic field in a solenoid
a. more loops = larger magnetic field b. more current = larger magnetic field

5 Electromagnetic Electromagnets consists of a solenoid wrapped around an iron core. a. The field produced by the solenoid causes the domains inside the iron core to become aligned making it stronger than a regular solenoid. b. Electromagnets can be turned off and on.

6 c. You can additionally make the electromagnetic stronger by increasing loops, the size of the core or the current in the wire. d. Strong electromagnets can lift trains!

7 Magnetic Force & Electric Current
Not only can an electric current cause magnets to move but Magnets can cause electric current to move!

8 Transformers A transformer increases or decreases the voltage of alternating current. Often located on top of electrical poles to decrease voltage before it goes in to your home.

9 Applications of Electromagnetism
Doorbells – doorbells contain a solenoid with an iron rod inserted part way. The current is controlled by the button. Press the button and a switch in the solenoid circuit closes. The magnetic field that is created pushes the rod into the bell.

10 Electric Motors An electric motor is a device that changes electrical energy into kinetic energy. The motor uses magnets to create motion. The electrical current enters into the motor to the commutator which turns the armature a half turn, current is reversed which turns the armature another half turn until it spins.

11

12 Electricity from Magnets
Electromagnetic induction is when electric current is produced by changing a magnetic field.

13 Applications Generators use electromagnetic induction to convert kinetic energy to electrical energy. A coil of wire is placed between the poles of a permanent magnetic. As the crank is turned the coil cuts through the magnetic field lines and induces an electric current in the wire.

14

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