Section 17.3 - CPO Science
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Transcript Section 17.3 - CPO Science
UNIT FIVE: Electricity and Magnetism
Chapter 16 Electricity
Chapter 17 Magnetism
Chapter Seventeen: Magnetism
17.1 Properties of Magnets
17.2 Electromagnets
17.3 Electric Motors and Generators
17.4 Generating Electricity
Chapter 17.3 Learning Goals
Describe the role of electromagnetism in
the function of electric motors and
generators.
Contrast energy transformations in
electric motors and generators.
Explain the principle of electromagnetic
induction.
17.3 Electric motors and generators
Permanent magnets and electromagnets
work together to make electric motors
and generators.
The secret is in the ability of an
electromagnet to reverse its north and
south poles.
17.3 Electric motors
Around the edge of
a disk are several
magnets, their
alternating north
and south poles
facing out.
17.3 Electric motors
To make the disk
spin, you bring a
permanent magnet
close to its edge.
The free magnet
attracts one of the
magnets in the disk
and repels the next
one.
The disk is a “rotor”
because it rotates.
17.3 Electric motors
In a working electric
motor, an electromagnet
replaces the magnet you
reversed with your
fingers.
The electromagnet
switches its poles to
make the rotor keep
turning.
17.3 Electric motors
As the rotor spins, a
commutator reverses
the direction of the
current in the
electromagnet.
17.3 Electric motors
Motors have three parts:
1. A rotor with magnets that
alternate.
2. One or more fixed
magnets around the rotor.
3. A commutator that
switches the direction of
current to keep the rotor
spinning.
17.3 Battery run electric motors
An electric motor that runs from batteries
has the same three parts.
The permanent magnets are on the
outside, and the electromagnets turn in
the rotor.
17.3 Battery run electric motors
A simple battery
powered motor
has three
electromagnets in
the armature.
17.3 Electromagnetic induction
Motors transform electrical energy into
mechanical energy.
Electric generators do the opposite.
They transform mechanical energy into
electrical energy.
The process of using a moving magnet to
create electric current is called
electromagnetic induction.
17.3 Electromagnetic induction
A moving magnet produces a current in
a coil of wire.
17.3 Generating electricity
A generator converts mechanical energy
into electrical energy using the law of
induction.
As long as the disk is spinning, there is a
changing magnetic field through the coil and
electric current is created.
Investigation 17C
Electromagnetic Forces
Key Question:
How does an electric motor work?