Find the charges on the three capacitors connected to a bettery as shown in figure (31.E1). Take `C_1=2.0,muF, C_2=4.0,muf, C_3=6.0,muF and V=12 volts.

Find the charges on the three capacitors connected to a bettery as shown in figure (31.E1). Take C_1=2.0=2.0,muF, C_2=4.0,muf, C_3=6.0,muF and V=12volts .(31-E1). Take C_1=2.0 mu F, C_2=4.0 mu F, C_2=6.0 mu F and V=12volts .

Find the change on the capacity C = 1muF in the circuit shown in the figure .

In figure, battery B supplies 12 V . Find the charge on each capacitor (a) first when only switch S1 is closed and (b) later when S2 is also closed. (Take C_1=1.0muF, C_2=2.0muF, C_3=3.0muF and C_4=4.0muF)

(i) Find the equivalent capacitance of the combination shown in the figure (a), when C_(1)=2.0 muF,C_(2)=4.0 muF and C_(3) = 3.0 muF (ii) The input terminals A and B in Fig. (a) are connected to a battery of 12 V. Find the potential and the charge of each capacitor.

Two cellls, two resistance and two capacitors are connected as shown in figure. The charge on 2muF capacitors is

In capacitor bridge, a voltage V_0 is applied and the variable capacitor C_1 has been adjusted till voltmeter shown zero reading. If C_(1)=8.9 muF, C_(2)=18muF, C_(3)=4.8muF at balance point, then C_x is

Three capacitors C_1,C_2,andC_3 of capacitance 1muF, 2muF, and 3muF , respectively, are charged separately as shown in the figure. Now these charged capacitors are connected to a battery of epsilon = 20 V and an uncharged capacitor of C = 2muF as shown in figure. , The charge on capacitor marked C is

Three capacitors C_1,C_2,andC_3 of capacitance 1muF, 2muF, and 3muF , respectively, are charged separately as shown in the figure. Now these charged capacitors are connected to a battery of epsilon = 20 V and an uncharged capacitor of C = 2muF as shown in figure. , The potential of point P is

A capacitor of capacitance C_1 = 1.0muF charged upto a voltage V = 110 V is connected in parallel to the terminals of a circuit consisting of two uncharged capacitors connected in series and possessing the capacitance C_2 = 2.0 muF and C_3 = 3.0muF . What charge will flow through the connecting wires?

A potential of V = 3000 V is applied to a combination of four initially uncharged capacitors as shown in the figure. Capacitors A, B, C and D have capacitances C_(A)=6.0 muF,C_(B)=5.2 muF,C_(C)=1.5 muF and C_(D) = 3.8 muF , respectiely. If the battery is disconnected, then potential difference across capacitor B is (approximately)