Question:
A long straight wire of radius \( R \) carries current \( i \). The magnetic field inside the wire at distance \( r \) from its centre is expressed as:
A long straight wire of radius \( R \) carries current \( i \). The magnetic field inside the wire at distance \( r \) from its centre is expressed as:
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The magnetic field inside a current-carrying conductor increases linearly with distance from the center, proportional to \( r \).
Updated On: Jan 12, 2026
- \( \frac{\mu_0 i}{\pi R^2} r \)
- \( \frac{2 \mu_0 i}{\pi R^2} r \)
- \( \frac{\mu_0 i}{2 \pi R^2} r \)
- \( \frac{\mu_0 i}{2 \pi r} \)
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The Correct Option is B
Solution and Explanation
Step 1: Magnetic Field Inside a Conductor.
For a current-carrying wire of radius \( R \), the magnetic field at a distance \( r \) from the center (inside the wire) is given by: \[ B = \frac{\mu_0 i}{2 \pi R^2} r \] where \( r \) is the distance from the center of the wire, and \( R \) is the radius of the wire.
Step 2: Conclusion.
The correct answer is (B), \( \frac{2 \mu_0 i}{\pi R^2} r \).
For a current-carrying wire of radius \( R \), the magnetic field at a distance \( r \) from the center (inside the wire) is given by: \[ B = \frac{\mu_0 i}{2 \pi R^2} r \] where \( r \) is the distance from the center of the wire, and \( R \) is the radius of the wire.
Step 2: Conclusion.
The correct answer is (B), \( \frac{2 \mu_0 i}{\pi R^2} r \).
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