The sketches below show a circular coil and a permanent magnet; the arrows indicate both the magnitude and the direction of the velocities of the magnet and coil. Select all the true statements. If no statements are true, select "None of the above." A. The induced voltage in A is zero. B. The induced voltage in D is zero. C. The induced voltage in E is zero. D. The induced voltage in G is non-zero. E. The induced voltage in C is non-zero. F. The induced voltage in B is zero. G. The induced voltage in F is non-zero. H. None of the above.

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The sketches below show a circular coil and a permanent magnet; the arrows indicate both the magnitude and the direction of the velocities of the magnet and coil. Select all the true statements. If no statements are true, select "None of the above."



A. The induced voltage in A is zero.
B. The induced voltage in D is zero.
C. The induced voltage in E is zero.
D. The induced voltage in G is non-zero.
E. The induced voltage in C is non-zero.
F. The induced voltage in B is zero.
G. The induced voltage in F is non-zero.
H. None of the above.

**Analysis of Magnetic Motion and Induced Current**

The sketches below illustrate a circular coil and a permanent magnet. Arrows highlight both the magnitude and direction of the velocities of the magnet and the coil. Evaluate each scenario to determine which statements about induced current are accurate.

### Diagrams Overview:

1. **Diagram A:**
   - Magnet labeled "N" (left) and "S" (right).
   - Magnet is moving to the right, towards a stationary coil.

2. **Diagram B:**
   - Magnet labeled "N" (left) and "S" (right).
   - Magnet is moving to the left, away from a stationary coil.

3. **Diagram C:**
   - Magnet labeled "S" (left) and "N" (right).
   - Coil is moving to the right, towards a stationary magnet.

4. **Diagram D:**
   - Magnet labeled "S" (left) and "N" (right).
   - Magnet is moving to the right, towards a stationary coil.

5. **Diagram E:**
   - Magnet labeled "S" (left) and "N" (right).
   - Magnet is moving to the left, away from a stationary coil.

6. **Diagram F:**
   - Magnet labeled "S" (left) and "N" (right).
   - Magnet is moving to the right, while the coil is moving towards the magnet.

7. **Diagram G:**
   - Magnet labeled "S" (left) and "N" (right).
   - Both magnet and coil are stationary.

### True Statements:

Evaluate each setup to assess whether the movement of the magnet relative to the coil will induce a current in the coil based on Faraday's Law of Electromagnetic Induction. Consider if any relative motion or change in the magnetic field through the coil occurs, which is necessary for inducing an electromotive force (EMF). If there's no relative movement or change in magnetic flux, the statement "None of the above" could be selected.
Transcribed Image Text:**Analysis of Magnetic Motion and Induced Current** The sketches below illustrate a circular coil and a permanent magnet. Arrows highlight both the magnitude and direction of the velocities of the magnet and the coil. Evaluate each scenario to determine which statements about induced current are accurate. ### Diagrams Overview: 1. **Diagram A:** - Magnet labeled "N" (left) and "S" (right). - Magnet is moving to the right, towards a stationary coil. 2. **Diagram B:** - Magnet labeled "N" (left) and "S" (right). - Magnet is moving to the left, away from a stationary coil. 3. **Diagram C:** - Magnet labeled "S" (left) and "N" (right). - Coil is moving to the right, towards a stationary magnet. 4. **Diagram D:** - Magnet labeled "S" (left) and "N" (right). - Magnet is moving to the right, towards a stationary coil. 5. **Diagram E:** - Magnet labeled "S" (left) and "N" (right). - Magnet is moving to the left, away from a stationary coil. 6. **Diagram F:** - Magnet labeled "S" (left) and "N" (right). - Magnet is moving to the right, while the coil is moving towards the magnet. 7. **Diagram G:** - Magnet labeled "S" (left) and "N" (right). - Both magnet and coil are stationary. ### True Statements: Evaluate each setup to assess whether the movement of the magnet relative to the coil will induce a current in the coil based on Faraday's Law of Electromagnetic Induction. Consider if any relative motion or change in the magnetic field through the coil occurs, which is necessary for inducing an electromotive force (EMF). If there's no relative movement or change in magnetic flux, the statement "None of the above" could be selected.
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