In the given option,the magnetic dipole moment of current loop is independent of

To solve the question regarding the magnetic dipole moment of a current loop and its dependencies, we can follow these steps: ### Step-by-Step Solution: 1. **Understand the Definition of Magnetic Dipole Moment**: The magnetic dipole moment (μ) of a current loop is defined as: \[ \mu = n \cdot I \cdot A \] where: - \( n \) = number of turns in the loop - \( I \) = current flowing through the loop - \( A \) = area of the loop 2. **Identify the Variables**: From the formula, we can see that the magnetic dipole moment depends on: - The number of turns \( n \) - The current \( I \) - The area \( A \) 3. **Analyze the Independence**: The question asks what the magnetic dipole moment is independent of. We need to consider factors that do not affect the magnetic dipole moment. 4. **Consider the Magnetic Field**: The magnetic dipole moment does not depend on the external magnetic field in which the loop is placed. While the magnetic field can influence the torque experienced by the dipole, it does not change the dipole moment itself. 5. **Conclusion**: Therefore, the magnetic dipole moment of a current loop is independent of the magnetic field in which it is lying. ### Final Answer: The magnetic dipole moment of a current loop is independent of the magnetic field in which it is lying.