A-Level AQA Physics Electromagnetic Induction: Figure 7 shows a search coil pos

Question

Figure 7 shows a search coil positioned on the axis of an electromagnet, with the plane of the search coil perpendicular to the axis. A magnetic field is produced by a constant current in the electromagnet.
Assume that the magnetic flux density inside the search coil is uniform.

The distance between the search coil and the end of the electromagnet is $x$.
Figure 8 shows how the magnetic flux density $B$ of the field varies with $x$.

The search coil has 200 turns and a cross-sectional area of $3.5 	imes 10^{-5} \, m^{2}$.

1. The search coil is placed at $x = 0.070 \, m$.

Show that the magnetic flux linkage through the search coil is $4.9 	imes 10^{-4} \, Wb$.

2. The search coil is now moved at a constant speed of $0.80 \, m \, s^{-1}$ along the axis so that $x$ is increasing. An emf is induced across the terminals of the search coil.

3. Explain what happens to the value of the emf as the search coil moves.

4. The search coil passes through the position where $x = 0.10 \, m$.

Deduces whether the emf can exceed $5 \, V$ for values of $x$ greater than $0.10 \, m$.

Figure 7 shows a search coil positioned on the axis of an electromagnet, with the plane of the search coil perpendicular to the axis - AQA - A-Level Physics - Question 4 - 2021 - Paper 2

Worked Solution & Example Answer:Figure 7 shows a search coil positioned on the axis of an electromagnet, with the plane of the search coil perpendicular to the axis - AQA - A-Level Physics - Question 4 - 2021 - Paper 2

The search coil is placed at $x = 0.070 \, m$.

The search coil is now moved at a constant speed of $0.80 \, m \, s^{-1}$ along the axis so that $x$ is increasing.

The search coil passes through the position where $x = 0.10 \, m$.

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