Electricity, Sound and Light Chapter Eight: Electricity and Magnetism 8.1 Electricity 8.2 Electrical Circuits and Electrical Power 8.3 Properties of.

Electricity, Sound and Light

Chapter Eight: Electricity and Magnetism

• 8.1 Electricity

• 8.2 Electrical Circuits and Electrical Power

• 8.3 Properties of Magnets

Investigation 8B

• What are the properties of magnets?

Magnetism

8.3 Properties of Magnets

• If a material is magnetic, it has the ability to exert forces on magnets or other magnetic materials.

• A magnet is a material that can create magnetic effects by itself.

Which of these is a permanent magnet?

8.3 The magnetic field

• A magnet fills the space around itself with a kind of potential energy called the magnetic field.

• You can see the pattern of the magnetic field by sprinkling iron filings on cardboard then placing a magnet underneath.

8.3 The magnetic field• The force from a

magnet gets weaker as it gets farther away.

• Separating a pair of magnets by twice the distance reduces the force by 8 times or more.

8.3 How does a compass work?

• A compass needle is a magnet that is free to spin.

• The north pole of a compass needle always points toward the south pole of a permanent magnet.

8.3 How does a compass work?

• The planet Earth has a magnetic field that comes from the core of the planet itself.

8.3 How does a compass work?• When you use a compass, the north-pointing end of

the needle points toward a spot near (but not exactly at) Earth’s geographic north pole.

• The south magnetic pole of the planet is near the geographic North Pole.

8.3 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.

8.3 Magnetic forces and electric current

• 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.

8.3 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.

8.3 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.

8.3 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.”

8.3 Transformers

• A transformer changes the high voltage from the main power lines to the 120 volts your appliances use.

8.3 Transformers• Inside a transformer, the

input is connected to the primary coil.

• The output of the transformer is connected to the secondary coil.

• The two coils have different numbers of turns to convert from one voltage to another.

8.3 Alternating current• Your house uses alternating current or AC at

either 120 or 220 volts. • AC voltage reverses direction 60 times per

second.

Technology Connection

Household Electricity

• You use electric current every day.

• When you plug in an electric appliance, you connect it to a circuit created by wires in the walls.

Activity

• Electricity and magnetism are two forms of the same basic force.

• You will use this idea to create a small motor.

Make a Simple Motor