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Electricity and Magnetism

Electricity and Magnetism. Electricity. is a form of energy caused by moving electrons called electric current. The path through which the electricity is conducted is called a circuit. There are 2 types of circuits – series and parallel circuits.

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Electricity and Magnetism

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  1. Electricity and Magnetism

  2. Electricity • is a form of energy caused by moving electrons called electric current. • The path through which the electricity is conducted is called a circuit. • There are 2 types of circuits – series and parallel circuits

  3. In a series circuit, all current is the same through each part A switch may be used to open and close the circuit. When the switch is open, electricity will not flow.

  4. A parallel circuithas more than one path for the electricity to flow.

  5. Ohm’s Law states that the resistance is equal to the voltage divided by the current R = V/I (R = resistance, V = voltage, I = current)

  6. Electric power is the work done per unit time in an electrical current. Power is measure in watts. P = V x I (P = power, V = voltage, I = current)

  7. Example Problems – 1. A 150 watt bulb is used in a 120 volt mine. What is the current? 2. A can opener is connected to a 120 volt line. It conducts a current of 1.5 amperes. What is the power in watts of the can opener?

  8. Magnetism is the force by which objects are attracted to other objects or repelled by other objects. Magnets have two opposite ends, called poles. The north pole of one magnet will repel, or push away, the north pole of another magnet. The same thing will happen with two south poles. However, the north pole of one magnet will attract, or pull toward itself, the south pole of another magnet.

  9. Properties of Magnets • All magnets have two areas of strongest force, called poles. • Each magnet has one north pole and one south pole. • Like poles repel, and opposite poles attract. • The magnetic region where you can “feel the force” is called a magnetic field.

  10. What makes some things magnetic, while other things can’t be magnetized? Spinning electrons cause small magnetic fields around each atom. Magnetic materials have atoms whose magnetic fields can be lined up in the same direction. Areas where atoms’ magnetic fields line up are called magnetic domains. magnetic domain Randomly arranged domains =No magnet! Magnetic domains lined up =Magnet! Magnetic Materials

  11. magnetic north pole geographic north pole magnetic south pole geographic south pole Magnetic lines of force around the earth are like the field lines around a giant bar magnet. The magnetic north pole and the geographic north pole are not located in the same place! The north pole of a compass points to the earth’s magnetic north pole. The Earth is a magnet!

  12. In 1820, H.C. Oersted discovered that an electric current flowing through a wire had a magnetic field around it. Electricity can cause magnetism! Electromagnets are powerful magnets that can be turned on and off. You can make an electromagnet stronger by (1) putting more turns of wire in the coil or (2) making a larger soft iron core, or (3) increasing the current through the wire. Electricity to Magnetism

  13. A simple DC electric motor contains a permanent magnet, an electromagnet, and a commutator. When current flows through the electromagnet, it turns within the magnetic field of the permanent magnet, changing electricity to mechanical energy. Current meters also use permanent magnets and electromagnets. When current flows through a wire, it makes an electromagnet. The force between the electromagnet and the permanent magnet makes a needle move on the meter. Uses for electromagnets

  14. Joseph Henry and Michael Faraday discovered that magnetism could also produce electric current. This is called electromagnetic induction. If a magnet is moved back and forth through a coil of wire, current can be made to flow through the wire. This is the idea behind electric generators and transformers. Magnetism to Electricity Current moves right in wire. Current moves left in wire.

  15. Generators produce AC current for home and industrial use. Water, wind, or steam are used to move large electromagnets through the coils of wire to produce current. Transformers are used to step up voltage of electricity that must travel long distances through wires. Other transformers then step down the voltage before it enters our homes. Uses for Electromagnetic Induction

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