A student placed a magnet close to each metal sample. Describe what happened. Figure 2 shows a paper clip being attracted to a permanent magnet. The paper clip in Figure 2 is not a permanent magnet. Explain what would happen if the paper clip was removed and brought close to the south pole of the permanent magnet. Write down the equation that links gravitational field strength (g), mass (m) and weight (W). The student added more paperclips to one end of the magnet. The maximum number of paperclips the magnet could hold was 20. Each paper clip had a mass of 1.0 g. Gravitational field strength = 9.8 N/kg Calculate the maximum force the magnet can exert.

GCSE AQA Physics Combined Science Magnetism, Magnetic Forces & Fields: A student placed a magnet close

A student placed a magnet close to each metal sample - AQA - GCSE Physics Combined Science - Question 1 - 2020 - Paper 2

Question 1

A student placed a magnet close to each metal sample. Describe what happened. Figure 2 shows a paper clip being attracted to a permanent magnet. The paper clip in ... show full transcript

Worked Solution & Example Answer:A student placed a magnet close to each metal sample - AQA - GCSE Physics Combined Science - Question 1 - 2020 - Paper 2

Step 1

Describe what happened.

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Answer

When the magnet is placed close to iron and steel, these materials will be attracted to the magnet due to their magnetic properties. However, aluminum, copper, and tin will not be attracted as they are not ferromagnetic materials.

Step 2

Explain what would happen if the paper clip was removed and brought close to the south pole of the permanent magnet.

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Answer

If the paper clip is removed from the magnetic field and then brought close to the south pole of the permanent magnet, the paper clip would still be attracted to the magnet. This is because the paper clip becomes an induced magnet due to the magnetic field from the permanent magnet.

Step 3

Write down the equation that links gravitational field strength (g), mass (m) and weight (W).

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Answer

The equation that links gravitational field strength, mass, and weight is given by: $W = mg$

Step 4

Calculate the maximum force the magnet can exert.

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Answer

To find the maximum force the magnet can exert, we first calculate the weight of the total number of paperclips:

Each paper clip has a mass of 1.0 g, which is equivalent to 0.001 kg. Therefore, the total mass of 20 paperclips is:

$ext{Total mass} = 20 imes 0.001 ext{ kg} = 0.02 ext{ kg}$

Using the gravitational field strength:

$ext{Weight} = 0.02 ext{ kg} imes 9.8 ext{ N/kg} = 0.196 ext{ N}$

Thus, the maximum force the magnet can exert is 0.196 N.

A student placed a magnet close to each metal sample - AQA - GCSE Physics Combined Science - Question 1 - 2020 - Paper 2

Worked Solution & Example Answer:A student placed a magnet close to each metal sample - AQA - GCSE Physics Combined Science - Question 1 - 2020 - Paper 2

Describe what happened.

Explain what would happen if the paper clip was removed and brought close to the south pole of the permanent magnet.

Write down the equation that links gravitational field strength (g), mass (m) and weight (W).

Calculate the maximum force the magnet can exert.

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