A step-up transformer is a key concept in GCSE Physics, especially when studying electricity and the National Grid. It’s a device that increases the voltage from the primary coil (input) to the secondary coil (output).
๐ What is a Step-Up Transformer?
A step-up transformer is a device that increases the voltage from the primary coil (input) to the secondary coil (output). It’s used to transmit electricity more efficiently over long distances.
๐งฒ How Does It Work?
Transformers work on the principle of electromagnetic induction, and they only work with alternating current (AC).
๐ Key Components:
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Primary coil โ connected to the power source.
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Secondary coil โ connected to the output.
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Iron core โ enhances the magnetic field between the coils.
๐ก In a Step-Up Transformer:
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The secondary coil has more turns of wire than the primary coil.
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This increases the voltage output.
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โ๏ธ Transformer Equation
VsVp=NsNp\frac{V_s}{V_p} = \frac{N_s}{N_p}
Where:
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VsV_s = voltage in the secondary coil
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VpV_p = voltage in the primary coil
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NsN_s = number of turns in the secondary coil
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NpN_p = number of turns in the primary coil
๐ In a step-up transformer:
Ns>NpsoVs>VpN_s > N_p \quad \text{so} \quad V_s > V_p
โก Why Use Step-Up Transformers?
In the National Grid, electricity is generated at around 25,000 volts but is stepped up to 400,000 volts for transmission. Why?
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Higher voltage = lower current for the same power.
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Lower current = less energy lost as heat (since power loss = I2RI^2 R).
Then, before electricity enters homes, a step-down transformer reduces the voltage back to safe levels (like 230V in the UK).
โ Summary for GCSE
| Feature | Step-Up Transformer |
|---|---|
| Voltage | Increases |
| Current | Decreases |
| Coils | More turns on secondary |
| Use | Power transmission (e.g., National Grid) |
๐ง Multiple Choice Questions
1. What is the purpose of a step-up transformer in the National Grid?
A) To increase the current
B) To increase the voltage
C) To decrease the power
D) To store electrical energy
Answer: B) To increase the voltage
Explanation: Step-up transformers increase voltage to reduce energy loss during transmission.
2. If the primary coil has 200 turns and the secondary coil has 1,000 turns, the transformer is…
A) Step-up
B) Step-down
C) Reversible
D) Inefficient
Answer: A) Step-up
Explanation: The secondary coil has more turns, so it’s a step-up transformer.
๐ข Calculation Questions
3. A transformer has:
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Primary voltage = 230 V
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Primary turns = 100
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Secondary turns = 1,000
What is the secondary voltage?
Solution:
Answer: 2300 V
4. A transformer increases voltage from 25,000 V to 400,000 V. If the primary coil has 500 turns, how many turns are on the secondary coil?
Solution:
Answer: 8,000 turns
โ๏ธ Short Answer Questions
5. Why is it important to reduce current in transmission cables?
Answer:
To reduce energy lost as heat. Power loss = I2RI^2 R, so lower current means less loss.
6. Explain why transformers only work with AC and not DC.
Answer:
Transformers rely on a changing magnetic field to induce voltage in the secondary coil. AC changes direction and creates this changing field. DC is constant and does not induce a changing magnetic field.
