Shows a square loop having 100 turns, an area of `2.5 X10^(-3) m^2 and a resistance of `100 Omega`. The magnetic field has a magnitude B =0.40 T. Find the work done in pulling the loop out of the field, slowly and uniformly is 1.0 s.

Figure shows a square loop 100 turns as area of 2.5 xx 10^(-3) m^(2) and a resistance of 100 Omega . The magnetic field has a magnitude B = 0.40 T . The work done in pulling the loop out of the field slowly and uniformly in 1.0 "s is n" xx 10^(-6) then n is

Figure show a square loop of side 0.5 m and resistance 10Omega . The magnetic field has a magnitude B=1.0T . The work done in pulling the loop out of the field slowly and uniformly in 2.0s is

Figure show a square loop of side 0.5 m and resistance 10Omega . The magnetic field has a magnitude B=1.0T . The work done in pulling the loop out of the field slowly and uniformly in 2.0s is

Figure show a square loop of side 0.5 m and resistance 10Omega . The magnetic field has a magnitude B=1.0T . The work done in pulling the loop out of the field slowly and uniformly in 2.0s is

Figures shows a square loop of side 1m and resistance 1Omega . The magnetic field on left side of line PQ has a magnitude B=1.0T. The work done in pulling the loop out of the field uniformly in 1 s is

Figures shows a square loop of side 1m and resistance 1Omega . The magnetic field on left side of line PQ has a magnitude B=1.0T. The work done in pulling the loop out of the field uniformly in 1 s is

Figure shows loop of 200 turns and side a=3m and resistance of one coil R=1000 Omega . The work done in pulling the loop out of the field, slowly and uniformly in 1.0 s is

A conducting square loop of side 10 cm is placed in a region of uniform magnetic field 0.5 T as shown in the figure. Calculate the work done in slowly moving the loop out of the field in 2 seconds with a speed of 0.05 m s^(-1) . The resistance of loop is 10 Omega .

A wire loop that encloses an area of 20 cm^2 has a resistance of 10 Omega The loop is placed in a magnetic field of 2.4 T with its plane perpendicular to the field . The loop is suddenly removed from the field. How much charge flows past a given point in the wire ?