Home
Class 12
PHYSICS
A circular coil with area A and N turns ...

A circular coil with area A and N turns is free to rotate about a diameter that coincides with the x-axis. Current I is circulating in the coil. There is a uniform magnetic field `vec B` in the the positive y direction. Calculate the magnitude and direction of the torque `vec tau` and the value of the potential energy U, when the coil is oriented as shown in parts (a) through (d) of Fig. 1.79.



Text Solution

Verified by Experts

(a) `phi=90^@: tau=NIAB sin(90^@)=NIAB`
Direction: `hatkxxhatj=-hati, U=-MBcos phi=0`
(b) `phi=0^@: tau=NIAB sin(0)=0` no direction,
`M=NIA, U=-MBcosphi=-NIAB`
(c) `phi=90^@: tau=NIAB sin(90^@)=NIAB`
Direction: `-hatkxxhatj=-hati, U=-MBcos phi=0`
(d) `phi=180^@: tau=NIAB sin(180^@)=0` no direction,
`U=-MBcosphi=-NIAB`
Doubtnut Promotions Banner Mobile Dark
|

Topper's Solved these Questions

  • MAGNETIC FIELD AND MAGNETIC FORCES

    CENGAGE PHYSICS|Exercise Exercises Subjective|10 Videos

  • MAGNETIC FIELD AND MAGNETIC FORCES

    CENGAGE PHYSICS|Exercise Exercises Single Correct|70 Videos

  • MAGNETIC FIELD AND MAGNETIC FORCES

    CENGAGE PHYSICS|Exercise Exercise 1.2|13 Videos

  • KINETIC THEORY

    CENGAGE PHYSICS|Exercise Question Bank|31 Videos

  • Magnetism and Matter

    CENGAGE PHYSICS|Exercise Question Bank|50 Videos

Similar Questions

Explore conceptually related problems

The (tau - theta) graph for a current carrying coil placed in a uniform magnetic field is

A square 12-turn coil with sides of length 40 cm carries a current of 3 A. It lies in the x-y plane as shown in Fig. in a uniform magnetic field. (a) Find the magnetic moment of the coil. (b) Find the torque exerted on the coil. (c) Find the potential energy of the coil.

Knowledge Check

  • A current I flows in a circular coil of radius r. If the coil is placed in a uniform magnetic field B with its plane parallel to the field, magnitude of the torque that acts on the coil is

    A
    Zero
    B
    `2piriB`
    C
    `pir^(2)iB`
    D
    `2pir^(2)iB`

  • A current i flows in a circular coil of radius r . If the coil is placed in a uniform magnetic field B with its plane parallel to the field, magnitude of the torque that acts on the coil is

    A
    Zero
    B
    `2pi r i B`
    C
    `pi r^(2) i B`
    D
    `2 pi r^(2) B`

  • A flat coil of n turns, area A and carrying a current I is placed in a uniform magnetic field of magnitude B . The plane of the coil makes an angle theta with the direction of the field. The torque acting on the coil is

    A
    `B I n A sin theta`
    B
    `(n A I)/(B) sin theta`
    C
    `B I n A cos theta`
    D
    `B I n^(2) A cos theta`

    • Similar Questions

    Explore conceptually related problems

    A circular coil of corss-sectional area 200 cm2 and 20 turns is rotated about the vertical diameter with angular speed of 50 rad s^(-1) in a uniform magnetic field of magnitude 3.0xx10^(-2)T . Calculate the maximum value of the current in the coil.

    There is a flat circular current coil placed in a uniform magnetic field in such a manner that its magnetic moment is opposite to the direction of the magnetic field. The coil is

    A current carrying rectangular coil is placed in a uniform magnetic field. In which orientation, the coil will not tend to rotate

    A planar coil having 12 turns carries 15 A current. The coil is oriented with respect to the uniform magnetic field vec B =0.2 hat i T such that its directed area is vec A= -0.04 hat i m. The potential energy of the coil in the given orientation

    A rectangular coil of area vecA and number of turns n is placed in a uniform magnetic field vecB. If the coil carries a current I, then the torque acting on the coil is given by

    Home
    Profile