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

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 -

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.

Electric flux through a spherical surface shown in the figure is _______

A current carrying circular loop is placed in an infinite plane if phi i is the magnetic flux through the inner region and phi o is magnitude of magnetic flux through the outer region, then

A current carrying circular loop is placed in an infinite plane if phi i is the magnetic flux through the inner region and phi o is magnitude of magnetic flux through the outer region, then

Find out the magnitude of resistance X in the circuit shown in figure, When no current flows through the 5 Omega resistance

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