Two coils have a mutual inductance `0.005 H`. The current changes in the first coil according to equation `I=I_(0)sin omegat`, where `I_(0)=10A` and `omega=100pi`radian//sec`. The maximum value of e.m.f. in the second coil is

Two coils have a mutual inductance 0.005H. The current changes in the first coil according to the equation I=I_(0) sin omegat "where" I_(0)=10A and omega =100pi rad//s . The maximum value of emf wiin second coil is (pi//x) volts. Find the value of x.

Two coils have a mutual inductance of 0.005 H . the current changes in the first coil according to equation I=I_0 sinomegat , where I_0=10A and omega=100pirad//s . The maximum value of emf (in volt) in the second coil is

Two coils have a mutual inductance 0.005 H, The current changes in the first coil according to the equation i= i_(m) sin omega t where i_(m) = 10 A and omega= 100pi rad s^(-1) . The maximum value of the emf induced in the second coil is

Two coils have the mutual inductance of 0.05 H. The current changes in the first coil as I=I_(0)sin omegat , where I_(0)=1A and omega=100pi"rad/s" . The maximum emf induced in secondary coil is

Two coils have a mutual inductance of 5 xx 10^(-3) H . The current changes in the first coil according to the euquation, I_(1)=I_(0)sin omega t where I_(0)=10A and omega = 100 pi rad//s . What is the value of the maximum e.m.f in the second coil?

Two coils have a mutual iductance of 0.001 H. The current in the first coil is given by I=I_(0) sin (omega t) where I_(0)=5A and omega = 100 pi . What is the value of maximum e.m.f. in the second coil?

Two coils have a mutual inductance of 0.01 H. The current in the first coil changes according to equation, I = 5 sin 200 pi t. The maximum value of emf induced in the second coil is