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The magnetic field at the centre of circ...

The magnetic field at the centre of circular loop in the circuit shown below is

A

`(mu_0)/(4pi) (2I)/(r ) (1 + pi)`

B

`(mu_0)/(4pi) (2I)/( r) (pi - 1)`

C

`(mu_0)/(4pi) (2I)/(r ) `

D

`(mu_0)/(4pi) I/r (pi + 1)`

Text Solution

Verified by Experts

The correct Answer is:
B
`B_1 = (mu_0 i)/(2pi r) B_2 = (mu_0 i)/(2r) B = B_1 - B_2`
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NARAYNA-MOVING CHARGES AND MAGNETISM-EXERCISE - 2(C.W) (AMPERE.S CIRCUITAL LAW BIO-SAVART LAW AND ITS APPLICATIONS)
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  4. ABCD is a square of side L. A very long straight conductor carrying a ...

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  5. The magnetic field at the centre of circular loop in the circuit shown...

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  6. A current of 1A is flowing in the sides of equilateral triangle of sid...

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  7. In the given figure the magnetic induction at the point O is

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  8. Figure shows a coil of radius 2 cm concentric with a coil of radius 7c...

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  9. Two identical coils carry equal currents have a common centre and thei...

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  10. A uniform wire of resistance 12Omega is bent in the form of a square. ...

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  11. A wire of length 10cm is bent into an arc of a circle such that it sub...

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  12. A circular coil of radius 'r' having 'n' turns carries a current 'I'. ...

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  13. Two wires A and B are of lengths 40cm and 30cm. A is bent into a circl...

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  14. Two long straight conductors with corrents I(1) and I(2) are placed al...

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  15. Magnetic field induction at the center of a circular coil of radius 5c...

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  16. The magnetic induction at the centre of a current carrying circular co...

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  17. Same current i is flowing in the three infinitely long wires along pos...

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  18. Two long straight wires are connected by a circular section which has ...

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  19. If B is the magnetic induction, at the centre of a circular coil of ra...

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