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Figure 1 shows a mobile phone with its battery removed - AQA - GCSE Physics Combined Science - Question 1 - 2021 - Paper 1

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Figure 1 shows a mobile phone with its battery removed. A student measured the potential difference across the battery and then put the battery into the phone. 1.1... show full transcript

Worked Solution & Example Answer:Figure 1 shows a mobile phone with its battery removed - AQA - GCSE Physics Combined Science - Question 1 - 2021 - Paper 1

Step 1

What is the equation linking current (I), potential difference (V) and resistance (R)?

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Answer

The equation linking current, potential difference, and resistance is given by:

I=VRI = \frac{V}{R}

Step 2

The current in the electronic circuit in the mobile phone was 0.12 A. The potential difference across the battery was 3.9 V. Calculate the resistance of the electronic circuit in the mobile phone.

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Answer

To calculate the resistance (R), we can rearrange the equation:

R=VIR = \frac{V}{I}

Substituting the values:

R=3.9V0.12A=32.5ΩR = \frac{3.9 \, \text{V}}{0.12 \, \text{A}} = 32.5 \, \Omega

Thus, the resistance of the electronic circuit is approximately 32.5 Ω.

Step 3

Write down the equation which links energy (E), power (P) and time (t).

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Answer

The equation that links energy, power, and time is:

E=P×tE = P \times t

Step 4

Calculate the energy transferred by the battery.

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Answer

To calculate the energy transferred, first convert the time from minutes to seconds:

2500minutes=2500×60seconds=150000seconds2500 \, \text{minutes} = 2500 \times 60 \, \text{seconds} = 150000 \, \text{seconds}

Now using the energy equation:

E=P×t=0.46W×150000s=69000JE = P \times t = 0.46 \, \text{W} \times 150000 \, \text{s} = 69000 \, \text{J}

Therefore, the energy transferred by the battery is 69000 J.

Step 5

What component does the circuit symbol shown in Figure 2 represent?

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Answer

The circuit symbol shown in Figure 2 represents a thermistor.

Step 6

Explain what happens to the current in the component.

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Answer

As the temperature of the thermistor increases, its resistance decreases. Since the potential difference remains constant, according to Ohm's Law, the current will increase:

I=VRI = \frac{V}{R}

This means that as resistance decreases, current increases.

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