Current (i) passing through a coil varies with time t as `i=2t^(2)`. At 1 s total flux passing through the coil is 10 Wb. Then

Current passing through a conductor changes with time as i = 10e^(-2t) ampere. Charge passed through a cross-section of conductor in the time-interval t = 0 to t = oo is______(in Coulomb).

The magnetic flux through a coil varies with time as phi=5t^2+6t+9 The ratio of emf at t = 3 s to t = 0 s will be

The current in a coil varies with respect to time t as I=3t^(2)+2t . If the inductance of coil be 10 mH, the value of induced e.m.f. at t=2s will be-

The magnetic flux through a coil varies with time as phi=5t-6t+9. The ratio of E.M.F. at t=0s" to "t=0.5s will be

The magnetic flux through a coil varies with time t as follows: phi_(t) = (8t^(3) - 6t^(2) + t - 5) Wb What is the induced current through the coil at t = 4 s, given that the resistance of the coil is 10 Omega and the magnetic flux through the coil is perpendicular to its plane?

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

Calculate the amount of current passing through a wire at t=9 s, if the electric charge passing through a cross section of wire in t time is given as q(t)=7t^2+9t-2 .