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A coil with 200 turns experiences a change in magnetic flux of 0.4 Wb in 0.5 seconds. Calculate the induced emf in the coil using Faraday's law. Scenario focus: orbital motion in a distinct A-Level Physics fields context; identify the field quantity, source, direction, and unit before selecting the answer.

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Magnetic fields

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A coil with 200 turns experiences a change in magnetic flux of 0.4 Wb in 0.5 seconds. Calculate the induced emf in the coil using Faraday's law. Scenario focus: orbital motion in a distinct A-Level Physics fields context; identify the field quantity, source, direction, and unit before selecting the answer.

Model answer

What a good answer should say

  • The induced emf in the coil is 160 V.

Explanation

Why this works

The correct answer is The induced emf in the coil is 160 V.. This is correct for Magnetic fields because the stem is testing orbital motion; the chosen option keeps the field quantity, source interaction, direction, and unit consistent.

The alternatives are weaker because they mix gravitational, electric, magnetic, orbital, or transformer ideas, or they attach the right number to the wrong physical meaning.

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