A current `I = 3.36(1 +2t) xx 10^(-2)` A increase at a steady state in a long staight wire. A small circular loop of radius `10^(-3)` m has its plane parallel to the wire and is placed at a distance of 1 m from the wire. The resistance of loop is `8.4 xx 10^(-4) (Omega)`. Find the approximate value of induced current in the loop.

A current I=3.36 (1+2t)xx 10^-2 A increases at a steady rate in a long straight wire. A small circular loop of radius 10^-3 m has its plane parallel to the wire and is at a placed at a distance of 1 m from the wire. The resistance of the loop is 8.4 xx 10^-4 Omega . find the megnitude and the direction of the induced current in the loop.

A current i=alphat , where t is time is flowing in a long wire. A smaller circular loop of radius a has its plane parallel to the wire and is placed at distance d from the wire. If resistance per unit length of loop is lambda , find the magnitude and direction of the current in the loop.

A square wire loop of side 10 cm is placed at an angle of 45^(@) with a magnetic field that changes uniformly from 0.1 T to zero in 0.7 s. If resistance of the loop is 1 Omega , then the induced current in it is

A coducting circular loop of area 1mm^2 is placed coplanarly with a long, straight wire at a distance of 20 cm from if. The straight wire carries an electric current which changes from 10A to zero is 0.1 s. Find the average emf induced in the loop in 0.1 s.

A coducting circular loop of area 1mm^2 is placed coplanarly with a long, straight wire at a distance of 20 cm from if. The straight wire carries an electric current which changes from 10A to zero is 0.1 s. Find the average emf induced in the loop in 0.1 s.

A coducting circular loop of area 1mm^2 is placed coplanarly with a long, straight wire at a distance of 20 cm from if. The straight wire carries an electric current which changes from 10A to zero is 0.1 s. Find the average emf induced in the loop in 0.1 s.

A large circular loop of radius 1 metre has total resistance 4Omega . A variable current is folwing through the loop. The current at any instant is given by equation l = lA, where i is time in second. A very small circular loop or radius 1 cm having resistance 3.14 Omega is placed coaxially with the larger loop at a distance of sqrt3 metre from the centre of larger loop. If induced current in smaller loop is (mu_(0)x xx 10^(-4))/(16) ampere then, find x.

A large circular loop of radius 1 metre has total resistance 4Omega . A variable current is folwing through the loop. The current at any instant is given by equation l = lA, where i is time in second. A very small circular loop or radius 1 cm having resistance 3.14 Omega is placed coaxially with the larger loop at a distance of sqrt3 metre from the centre of larger loop. If induced current in smaller loop is (mu_(0)x xx 10^(-4))/(16) ampere then, find x.

Figure shows a long straight wire carrying current I and a square conducting wire loop of side l, at a distance 'a' from current wire. Both the current wire and loop are in the plane of paper. Find the flux of magnetic filed of current wire, passing through the loop.