A square loop of side 10 cm with its side parallel to X, and y axis is kept in a uniform magnetic field pointing towards positive z-direction. If magnetic field changes at the rate of 0.1 T/s, then induced emf is

A conductor rod AB moves parallel to X-axis in a uniform magnetic field, pointing in the positive Z-direction. The end A of the rod gets-

A squre loop of side a= 12 cm with its sides parallel to x, and y-axis is moved with velocity, V=8 cm/s in the positive x direction in a magnetic field along the positive z-direction. The field is neither uniform in space nor constant in time. It has a gradient delB//delx=-10^(-3) T//cm along the x-direction, and it is changing in time at the rate delB//delt=7T//sec in the loop if its resistance is R =4.5 Omega . Find the current .

A square loop of side 12 cm with its sides parallel to x and y - axes is moved with a velocity 8 cm//s along positive x -direction in an environment containing magnetic field along +ve z-direction. The field has a gradient of 10^(-3) "tesla"//"em" along -ve x-direction (increasing along -ve x-axis) and also decreases with time at the rate of 10^(-3) "tesla"//s . The emf induced in the loop is

A square loop of side 12 cm with its sides parallel to X and Y axes is moved with a velocity of 8 cm s^(-1) in the positive x-direction in an environment containing a magnetic field in the positive z-direction. The field is neither uniform in space nor constant in time. It has a gradient of 10^(-3) T cm^(-1) along the negative x-direction (that is it increases by 10^(-3) T cm^(-1 ) as one moves in the negative x-direction), and it is decreasing in time at the rate of 10^(-3) T s^(-1) . Determine the direction and magnitude of the induced current in the loop if its resistance is 4.50 mOmega .

The given loop is kept in a uniform magnetic field perpendicular to plane of loop. The field changes from 1000G to 500G in 5 seconds. the average induced emf in loop is -

A closed loop with the geometry shown in Fig. 3.9 is placed in a uniform magnetic field direction into the plane of the paper. If the magnetic field decreases with time, determine the direction of the induced emf in this loop.

A square loop of side 20 cm and resistance 0.30 Omega is placed in a magnetic field of 0.4 T. The magnetic field is at an angle of 45^(@) to the plane of loop. If the magnetic field is reduced to zero in 0.5 s, then find the induced emf and induced current in the loop in this time interval.