The primary and secondary coils of a transforme have ``50 and 1500 turns respectively. If the magnetic flus `phi`linked with the primary coil is given by `phi=phi_(0)+4t,` where `phi` is in weber, t is time in second and `phi_(0)` is a constant, the output voltage aross the secondary coil is

The primary and secondary coils of a transformer have 50 and 1500 turns respectively. If the magnetic flux phi linked with the primary coil is given by phi=phi_(0)+4t , where phi is in webers, t is time in second and phi_(0) is a constant, the output voltage across the secondary coil is

The primary and secondary coils of a transmformer have 50 and 1500 turns respectively. If the magnetic flux phi linked with the primary coil is given by phi=phi_(0)+4t , where phi is in weber, t is time in second and phi_(0) is a constant, the output voltage across the secondary coil is

The magnetic flux (phi) linked with the coil depends on time t as phi=at^(n) , where a and n are constants. The emf induced in the coil is e

The magnetic flux linked with a coil is phi and the emf induced in it is e .

The number of turns of primary and secondary coils of a transformer are 5 and 10 respectively and the mutual inductance of the tranformar is 25 henry. Now the number of turns in the primary and secondary of the transformar are made 10 and 5 respectivaly. The mutual inductance of the transformar in henry will be

The magnetic flux phi linked with a conducting coil depends on time as phi = 4t^(n) + 6 , where n is positive constant. The induced emf in the coil is e

The magnetic flux linked with a coil, in webers is given by the equation phi=3t^(2)+4t+9 . Then, the magnitude of induced emf at t = 2 s

The magnetic flux linked with a coil is given by an equation phi (in webers ) = 8t^(2)+3t+5 . The induced e.m.f. in the coil at the fourth second will be

A time varying magnetic flux passing through a coil is given by phi=xt^(2) , if at t=3s , the emf induced is 9 V, then the value of x is

A coil of resistance 400Omega is placed in a magnetic field. If the magnetic flux phi (wb) linked with the coil varies with time t (sec) as f=50t^(2)+4 , the current in the coil at t=2 sec is