The inductance of a coil is L=10H and resistance `R=5Omega` If applied voltage of battery is 10 V and if switches off in 1 ms, find induced emf of inductor.

An inductance of 2 H and resistance of 10 Omega are connected to a battery of 5 V. the time constant of the circuits is:

A coil of inductance L=50muH and resistance = 0.5Omega is connected to a battery of emf = 5V. A resistance of 10Omega is connected parallel to the coil. Now, at the same instant the connection of the battery is switched off. Then, the amount of heat generated in the coil after switching off the battery is

An inductor-coil of inductance 20 mH having resistance 10 Omega is joined to an ideal battery of emf 5.0 V. Find the rate of change of the induced emf at t=0, (b) t = 10 ms and (c ) t = 1.0s.

An LCR series circuit having 220 V ac source, inductance L = 25 mH and resistance R = 100 Omega . If voltage across inductor is just double of voltage across resistor then find out frequency of source.

An LCR series circuit having 220 V ac source, inductance L = 25 mH and resistance R = 100 Omega . If voltage across inductor is just double of voltage across resistor then find out frequency of source.

A coil of inductance 1.0 H and resistance 100 Omega is connected to a battery of emf 12 V. Find the energy stored in the magnetic field associated with the coil at an instant 10 ms after the circuit is switched on.

A coil =of inductance L=50muH and resistance = 0.5Omega is connected to a battery of emf=5A. A resistance of 10Omega is connected parallel to the coil. Now at some instant the connection of the battery is switched off. Then the amount of heat generated in the coil after switching off the battery is (0.02)x in mJ. Find valuie of x.

In a circuit shown in figure the battery emf is equal to E=2.0 V , its internal resistance is r=9.0 Omega , the capacitance of the capacitor is C=10 mu F , the coil inductance is L=100 m H , and the resistance is R=100 Omega . At a certain momenta the switch Sw was disconneted. Find the energy of oscillations in the circuit (b) t=0.30s after the switch was disconnected,

An inductor of inductance L=400 mH and resistors of resistances R_1=2Omega and R_2=2Omega are connected to a battery of emf E=12 V as shown in the figure. The internal resistance of the battery is negligible. The switch S is closed at time t=0 . What is the potential dro across L s a function of time? After the steady state is reached, the switch is opened. What is the direction ad the magnitude of current throough R_1 as a function of time?

In an L-R circuit, an inductance of 0.1 H and a resistance of 1 Omega are connected in series with an ac source of voltage V = 5 sin 10 t. The phase difference between the current and applied voltage will be