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AQA GCSE Physics 33 Electromagnetism

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Title: AQA GCSE Physics 33 Electromagnetism


1
AQA GCSE Physics 3-3Electromagnetism
  • GCSE Physics pages 254 to 265

2
AQA GCSE Specification
  • THE MOTOR EFFECT
  • 13.7 How can electricity be used to make things
    move?
  • Using skills, knowledge and understanding of how
    science works
  • to explain how the motor effect is used in
    simple devices.
  • Skills, knowledge and understanding of how
    science works set in the context of
  • When a conductor carrying an electric current
    is placed in a magnetic field, it may experience
    a force.
  • The size of the force can be increased by
  • increasing the strength of the magnetic field
  • increasing the size of the current.
  • The conductor will not experience a force if
    it is parallel to the magnetic field.
  • The direction of the force is reversed if
    either the direction of the current or the
    direction of the magnetic field is reversed.
  • ELECTRICAL GENERATORS
  • 13.8 How do generators work?
  • Using skills, knowledge and understanding of how
    science works
  • to explain from a diagram how an a.c.
    generator works, including the purpose of the
    slip rings and brushes.
  • TRANSFORMERS
  • 13.9 How do transformers work?
  • Using skills, knowledge and understanding of how
    science works
  • to determine which type of transformer should
    be used for a particular application.
  • Skills, knowledge and understanding of how
    science works set in the context of
  • The basic structure of the transformer.
  • An alternating current in the primary coil
    produces a changing magnetic field in the iron
    core and hence in the secondary coil. This
    induces an alternating potential difference
    across the ends of the
  • secondary coil.
  • The potential difference (p.d.) across the
    primary and secondary coils of a transformer are
    related by the equation
  • p.d. across primary / p.d. across secondary
    number of turns on primary / number of turns on
    secondary
  • In a step-up transformer the potential
    difference across the secondary coil is greater
    than the potential difference across the primary
    coil.
  • In a step-down transformer the potential
    difference across the secondary coil is less than
    the potential difference across the primary coil.
  • The uses of step-up and step-down transformers
    in the National Grid.

3
The motor effectNotes questions from pages 254
255
  • What is the motor effect?
  • Copy out the bullet points at the bottom of page
    254 listing the factors that affect the force on
    a current carrying wire inside a magnetic field.
  • Copy and answer question (a) on page 254.
  • Copy Figure 3 on page 255 and explain how a
    simple electric motor works. Your account should
    include the purpose of the split-ring commutator.
  • Copy and answer question (b) on page 255.
  • Copy Figure 4 on page 255 and explain how a
    moving coil loudspeaker works.
  • Copy and answer question (c) on page 255.
  • Copy the Key points table on page 255.
  • Answer the summary questions on page 255.

4
The motor effect ANSWERS
  • In text questions
  • No change, the actions cancel each other out.
  • The material must conduct electricity.
  • A direct current will not produce a changing
    magnetic field.
  • Summary questions
  • (a) Current, coil, force, coil.
  • (b) Current, force, coil.
  • 2. (a) The direction of the current is reversed
    and so the force on the coil is in the opposite
    direction.
  • (b) (i) Faster because the coil is lighter
  • (ii) Faster because the field is much stronger
    due to the presence of iron.

5
Electromagnetic induction Notes questions from
pages 256 257
  • What is induced in a wire because of the dynamo
    effect?
  • Copy and answer question (a) on page 256.
  • Copy Figure 2 on page 256 and explain how cycle
    dynamo works.
  • Copy and answer questions (b) and (c) on page
    256.
  • Explain how the alternating current generator on
    page 257 works. Your explanation should include a
    copy of both parts of Figure 4.
  • Copy the Key points table on page 257.
  • Answer the summary questions on page 257.

6
Electromagnetic induction ANSWERS
  • In text questions
  • (a) (i) The current increases.
  • (ii) The direction of the current reverses.
  • (iii) No current is produced.
  • The wires leading to the coil would get twisted
    up. No brushes are needed.
  • (i) There is no current.
  • (ii) A p.d. is produced in the opposite
    direction.
  • Summary questions
  • 1. (a) The pointer would move to the right but
    not as far.
  • (b) The pointer returns to zero.
  • (c) The pointer would move rapidly to the left.
  • 2. (a) Spin the coil faster, use more loops of
    coil, use stronger magnets.
  • (b) The peak voltage would be lower and the
    period would be longer.

7
Transformers Notes questions from pages 258 259
  • Copy Figure 1 on page 258 and (a) explain what a
    transformer is, (b) what a transformer does and
    (c) how a transformer works.
  • Copy and answer questions (a), (b) and (c) on
    page 258.
  • Copy the circuit symbol for a transformer on page
    259 and explain why the electric current supplied
    to a transformer must be alternating in order for
    the transformer to function.
  • Copy and answer question (d) on page 259.
  • Copy the Key points table on page 259.
  • Answer the summary questions on page 259.

8
Transformers ANSWERS
  • In text questions
  • The magnetic field in the core would be much
    weaker because the core is not a magnetic
    material.
  • The lamp would be brighter.
  • The lamp would not light up with direct current
    in the primary coil.
  • Iron is easier to magnetise and demagnetise as
    the alternating current increases and decreases
    each half cycle.
  • Summary questions
  • 1. Current, primary, magnetic field, secondary,
    p.d., secondary.
  • 2. (a) Direct current in the primary coil would
    not produce an alternating magnetic field, so no
    p.d. would be induced in the secondary coil.
  • (b) The current would short-circuit across the
    wires instead of passing through them. This would
    cause the coil to overheat if it did not cause
    the fuse to blow.
  • (c) Iron is a magnetic material, so it makes the
    magnetic field much stronger. It is easily
    magnetised and demagnetised when the current
    alternates.

9
Transformers and the National Grid Notes
questions from pages 260 261
  • (a) Why are transformers used in the National
    grid? (b) What is the advantage of using high
    voltages?
  • Copy the transformer equation on page 260.
  • Copy a version of the worked example on page 260
    but in your version change the number of turns on
    the secondary coil from 60 to 30.
  • What is the purpose of (a) step-up and (b)
    step-down transformers?
  • Explain how the number of turns on the coils of a
    transformer determine whether a transformer is
    step-up or step-down.
  • State how the currents and voltages associated
    with the primary and secondary coils are related
    to each other with a 100 efficient transformer.
  • Copy and answer questions (a) and (b) on page
    261.
  • Copy the Key points table on page 261.
  • Answer the summary questions on page 261.

10
Transformers and the National Grid ANSWERS
  • In text questions
  • 60 turns
  • (i) 6A (ii) 0.26A
  • Summary questions
  • 1. (a) (i) Secondary, primary.
  • (b) Up, down.
  • 2. (a) 2000 turns
  • (b) (i) 3A (ii) 0.15A

11
More power to you Notes questions from pages 262
263
  • Answer questions 1 and 2 on page 263.

12
More power to you ANSWERS
  • (a) They would not need heavy iron magnets.
  • (b) There would be no power wasted in the wires,
    as the wires would have no resistance.
  • 2. (a) Ionising radiation, carcinogenic
    (cancer-causing) substances.
  • (b) People are at risk due to other causes.
    There is an extra risk to those exposed to these
    magnetic fields.
  • (c) A hypothesis is put forward as an unproven
    theory to be tested by scientific experiments. If
    lots of experiments are carried out and they all
    support the hypothesis, it gains scientific
    credibility and is accepted as a theory. But at
    any stage, it could be overthrown by any
    conflicting scientific evidence.

13
How Science Works ANSWERS
  • 0.01V
  • Not at the greater heights.
  • Improve the sensitivity of the oscilloscope.
    Repeat his results.
  • By checking it against other data/other similar
    research/get someone else to repeat his work or
    calculate theoretical relationships.
  • For example Measuring the speed of an object
    through a tube.
  • The voltmeter was not sensitive enough. It would
    also not give a read-out of the voltage, so it
    would be impossible to get an accurate result
    even if it was sensitive enough.
  • Height on the X-axis, voltage on the Y-axis. Axes
    fully labelled and plots correctly plotted.
  • In part. The voltage increased as height
    increased, but it was not directly proportional.
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