Electrical energy can be transmitted using a high voltage of 132 kV.
Using a high voltage increases the
current in the wires
efficiency of transmission
energy lost as heat
resistance of the wires
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Electrical energy can be transmitted using a high voltage of 132 kV.
The high voltage can be reduced using a
generator
magnet
transformer
transmitter
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The number of turns on the primary coil of a step-down transformer is:
the same as the number of secondary turns
more than the number of secondary turns
less than the number of secondary turns
zero
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Transformers are used in the National Grid.
Match parts A to D with the correct descriptions below.
| Soft-iron core | Â |
| Primary coil | Â |
| A.C. voltage supply | Â |
| Secondary coil | Â |
There is an alternating current (a.c.) in the primary coil. Â
Describe what this current produces in part D.Â
The following passage is about transformers.
Complete the sentences.Â
When there are ......................... turns in the primary coil than in the secondary coil, the device is called a step-up transformer.
When there are ......................... turns in the primary coil than in the secondary coil, the device is called a step-down transformer.
Step-up transformers ......................... the voltage.Â
Step-down transformers ......................... the voltage.
Transformers are used to step-up the voltage for transmission from power stations to homes and businesses.
State two advantages of transmitting electricity at high voltages rather than at low voltages.
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Complete the following sentences using one of the phrases from the box below.
| efficiency is reduced the national grid a power station heat loss is reduced a transformer |
Â
Electrical power is generated at ............................ . Electricity is transmitted over long distances by transmission lines that are part of .............................. . Electricity is transmitted at high voltages so that .............................. .
Transformers have many applications in appliances and the National Grid.
Select the correct statement:
Transformers can only step-up voltages.
Transformers can only step-down voltages.
Transformers can work with direct current.
Transformers have primary and secondary coils.
In a step-down transformer the primary voltage is 230 V, the primary current is 0.02 A and the secondary voltage is 5 V.
Calculate the current in the secondary coil
Use the equation
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Describe the structure of a step-down transformer. You may draw a labelled diagram to help your answer.
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The diagram shows a transformer that is 100% efficient.Â
Explain how a transformer works.
In your answer, you should include the reasons for using
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Explain how the transmission of electrical power is made more efficient by using step-up or step-down transformers.
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A laptop battery charger contains a step-down transformer.
This transformer is designed to reduce the voltage from 230 V to 12 V.
The primary current is 0.25 A.
A student notices that the charger becomes warm when it is working.
Suggest how this will affect the output of the transformer.
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The photographs show how an electric toothbrush fits on its charger.
The charger and the toothbrush each have a coil of wire inside them.
The diagram shows how the two coils are linked by a U-shaped core.
This arrangement of core and coils acts as a transformer that reduces voltage.
Explain why the core is made of a soft magnetic material, such as iron.
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The diagram shows parts of a transformer.
The input voltage to the transformer is 230 V a.c.
The output of the transformer is 25 V a.c.
There are 100 turns on the secondary coil.
State the equation linking input (primary) voltage, output (secondary) voltage, primary turns and secondary turns.
Calculate the number of turns on the primary coil.
Explain how a transformer works.
In your answer, you should include the reasons for using
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The diagram shows an electric motor and the direction of current.
Explain how the current produces movement of the coil.
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The transformer supplies an output voltage of 2000 V a.c. to the wire grid.
 Â
The input voltage to the transformer is 230 V a.c.
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Photograph E shows a rechargeable torch.Â
When a student shakes the torch, the magnet moves through the coil and back again.
This induces a voltage across the ends of the coil.
The voltage is used to provide current to recharge the battery.Â
Photograph FÂ shows the components inside the torch.
The torch uses a light-emitting diode (LED) to provide light.
The manufacturer of the torch states that
Explain this statement in terms of energy transfer.Â
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A student investigates how to produce a voltage.
He hangs a magnet from a spring, above a coil that is connected to a data logger.
The student pulls the magnet through the coil to X and then releases it.
The magnet moves up and down through the coil.
The data logger produces this graph of voltage against time.
The student repeats the experiment using two magnets taped together.
Compared to one magnet, these two magnets take a longer time to move up and down.
The dotted line on the grid shows the original graph for one magnet.
Â
On the same grid, sketch the graph that would be produced using two magnets.
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The diagram shows a magnet held above a coil. The coil is connected to a voltmeter.Â
The magnet is released and falls into the coil.Â
State how the voltmeter reading changes when the same magnetÂ
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A student uses this apparatus to investigate electromagnetic induction.
When the S pole of the magnet is moved into the coil, the pointer on the sensitive ammeter moves to the left.
Describe two ways that the student can make the pointer move to the right.
The student has a bicycle with a dynamo (generator) that supplies electricity for its lights. The diagram shows the dynamo. The friction wheel, W, presses against the bicycle tyre. When the student pedals, the friction wheel turns and causes part Y to rotate.
Â
State the maximum output voltage of the dynamo.Â
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