In an L-C circuit shown in figure
C=1F, L=4H
At time t=0, charge in the capacitor is 4C and it is decreasing at a rate of `sqrt5 C//s`

Choose the correct option

In an LC circuit shows in Fig. C = 1 F , L = 4 H . At time t = 0 , charge in the capacitor is 4 C and it is decreasing at the rate of sqrt(5) C s^(-1) . Choose the corrent statement.

In the L-C-R circuit as shown in figure,

In the circuit shown in the adjacent figure, the batteries are ideal. The charge on the capacitor C is

The circuit shown in fig 5.223 is in steady state. find the charges on the capacitors C_1 and C_2 respectively.

In the circuit shown in figure. Charge stored in 6 mu F capacitor will be (C= 6 mu F )

In an L-C circuit, L = 0.75 H and C =18 muF , (a) At the instant when the current in the inductor is changing at a rate of 3.40 A /s , what is the charge on the capacitor? (b) When the charge on the capacitor is 4.2 xx 10^-4 C, what is the induced emf in the inductor?

The figure shown a graph of current in a dicharge circuit of a capacitor through a resistor of resistar 10 Omega . Choose the correct option (s)

In an L-C circuit, L=3.3H and C=840pF . At t=0 charge on the capacitor is 105muC and maximum. Compute the following quantities at t=2.0ms . a. The energy stored in the capacitor. b. The total energy in the circuit, c. The energy stored in the inductor.

In the circuit diagram shown in Figure, R=10 Omega, L=l5H, E=20v, i=2A . This current is decreasing at a rate of -1.0A//s. Find V_(ab) at this instant.

In the circuit diagram shown in Figure, R=10 Omega, L=5H, E=20v, i=2A . This current is decreasing at a rate of -1.0A//s. Find V_(ab) at this instant.