In the circuit shown , what is the energy stored in the coil at steady state?

In the circuit as shown in figure, energy stored in capacitor at steady state is

The energy stored in the capacitor in the steady state is

Figure shows a network of capacitor and resistances. . 3V Potentials of some of the points are given. The energy (U) stored in the capacitor at steady state and the heat (H) dissipated in 1Omega resistor at steady state are

In the figure magnetic energy stored in the coil is

The capacitor shown in the figure is initially unchanged, the battery is ideal. The switch S is closed at time t= 0, then the time after which the energy stored in the capacitor becomes one - fourth of the energy stored in it in steady - state is :

In the circuit shown in fig. find the maximum energy stored on the capacitor. Initially, the capacitor was uncharged.

In the steady state of the circuit shown in the figure the ratio of energy stored in the inductor to th energy stored in the capacitor is 1000000.

In the circuit shown in figure 3.141, find the energy stored in 4muF capacitor in steady state.

A dry cell of emf 1.5 V and internal resistance 0.10 Omega is connected across a resistor in series with a very low resistance ammeter. When the circuit is switched on , the ammeter reading settles to a steady value of 2.0 A . (i) What is the steady rate of chemical energy consumption of the cell ? (ii) What is the steady rate of energy dissipation inside the cell ? (ii) What is the steady rate of energy dissipation inside the resistor ? (iv) What is the steady power out put of the source?

For the circuit shown in the figure determine the charge on capacitor in steady state.