Two coaxial circular loops L1 and L2 of ...

Two coaxial circular loops `L_1` and `L_2` of radii `3cm` and `4cm` are placed as shown in figure. What should be the magnitude and direction of the current in the loop `L_2` so that the net magnetic field at the point O be zero?

Text Solution

Verified by Experts

The correct Answer is:

`0.56`

The resultant magnetic field at the point will be zero only if the direction of current in loop `L_2` is opposite to that in loop `L_1`
Then magnetic field at O due to current `I_1` in loop `L_1` = magnetic field at O due to current `I_2` in loop `L_2`
or `(mu_0)/(4pi)=(2piI_1a_1^2)/((a_1^2+x_1^2)^(3//2))=(mu_0)/(4pi)(2piI_2a_2^2)/((a_2^2+x_2^2)^(3//2))`
or `(I_1a_1^2)/((a_1^2+x_1^2)^(3//2))=(I_2a_2^2)/((a_2^2+x_2^2)^(3//2))`
or `(1xx(0.03)^2)/([(0.03 )^2+(0.04)^(2)]^(3//2))=(I_2xx(0.04)^2)/([(0.04)^2+(0.03)^2]^(3//2))`
or `I_2=(1xx(0.03)^2)/((0.04)^2)=9/16=0.56 A`

Similar Questions

Explore conceptually related problems

A circular loop of radius R carries current I_2 in a clockwise direction as shown in figure. The centre of the loop is a distance D above a long, straight wire. What are the magnitude and direction of the current I_1 in the wire if the magnetic field at the centre of loop is zero?

Two circular loops of radius 6 cm and 8 cm are kept in Y-Z plane with their centres at (0, 0, 0) and (14 cm, 0, 0). Current in the first loop is 1 A and is in an anticlockwise direction, when seen from the second loop. Calculate the magnitude and direction of current in the second loop such that net magnetic field at point (8 cm, 0, 0) is zero.

A circular loop has radius R and carries current I_2 in a clockwise direction (as shown in Fig.) The centre of the loop is at a distance D above a long, straight wire. What are the magnitude and direction of the current I_1 in the wire if the magnetic field at the center of the loop is zero?

A triangular loop is placed in a dot o. magnetic field as shown in figure. Find the direction of induced current in the loop if magnetic field is increasing.

Two small circular loops, marked (1) and (2), carrying equal currents are placed with the geometrical axes perpendicular to each other as shown in figure. Find the magnitude and direction of the net magnetic field produced at the point O.

A square loop of side l carries a current i. it is placed as shown in figure. Find the magnetic moment of the loop.

A current l flows through a closed loop as shown in figure .The magnetic field at the centre O is

A circular loop is placed in magnetic field B=2t. Find the direction of induced current produced in the loop.

A non - planar loop of conducting wire carrying a current I is placed as shown in the figure . Each of the straighrt sections of the loop is of the length 2a . The magnetic field due to this loop at the point P(a, 0 ,a) points in the direction

Two coaxial circular loops `L_1` and `L_2` of radii `3cm` and `4cm` are placed as shown in figure. What should be the magnitude and direction of the current in the loop `L_2` so that the net magnetic field at the point O be zero?

Text Solution

Similar Questions

Recommended Questions