Some magnetic flux is changed from a coil of resistance `10Omega`. As a result an induced current is developed in it, which varies with time as shown in figure. The magnitude of change in flux through the coil in Wb is

Some magnetic flux is changed from a coil resistance 10Omega . As a result an induced current developed in it which varies with time as shown figure, The magnitude of changes f in flux through the coil (in webers) is

Some magnetic flux is changed from a coil resistance 10Omega . As a result an induced current developed in it. Which varies with time as shown figure, The magnitude of changes f in flux through the coil (in webers) is

Some magnetic flux is changed from a coil of resitance 10 Omega . As a result, an induced current is developed it, which varies with time as shown in Fig. 3.213. Find the magnitude of the change in flux through ythe coil in weber.

In a coil of resistance 10 Omega , the induced current developed by changing magnetic flux through it, is shown in figure as a function of time. The magnitude of change in flux through the coil in Weber is -

In a coil of resistance 100 Omega , a current is induced by changing the magnetic flux through it as shown in the figure. The magnitude of change in flux through the coil is

The current in a coil varies with time as shown in the figuro. The variation of induced emf with time would be

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

The magnetic flux across a loop of resistance 10Omega is given by phi=5t^(2)-4t+1Wb . How much current is induced in the loop after 0.2 s?

The resistance of a coil is 5 ohm and a current of 0.2A is induced in it due to a varying magnetic field. The rate of change of magnetic flux in it will be-

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