A circuit has section AB as shown in The emf of the cell is `10 V`, and the capacitors have capacitances `C_(1)=1 muF` and `C_(2)=2 muF`.
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A circuit has section AB as shown in figure. The emf of the source equals E=10V , the capacitor capacitances are equal to C_1 =1.0muF and C_2=2.0muF , and the potential difference V_A-V_B=5.0V . Find the voltage across each capacitor.

A circuit has a section Ab shown in fig. The emf of the source equals E = 10V , the capacitances are equal to C_(1) = 1.0 muF and C_(2) = 2.0 muF , and the potential difference varphi_(A) - varphi_(B) = 5.0 V . Find the voltage across each capacitor.

In the circuit shoenin figure 6.17 the emf of each better is 60 V, and the capacitances of the capacitors are C_(1)=3muF and 2muF. Find the charges which will flow after the switch is colosed through the wires 1,2 and 3 n the directions indicated by the arrows.

Shows a part of a circuit. If all the capacitors have a capacitance of 2 muF , then the .

In the circuit shown in, C=6 muF . The charge stored in the capacitor of capacity C is .

In the circuit shown in figure, the charge stored on a capacitor of capacitance 3muF is

A capacitor of capacitance C_(1) = 1.0 muF charged up to a voltage V = 110V is connected in parallel to the teminals of a circuit consisting of two uncharged capacitors connected in series and possessing the capacitances C_(s) = 2.0 muF and C_(s) = 3.0 muF . What charge will flow through the connecting wires ?

A circuit shown in the figure consists of a battery of emf 10V and two capacitance C_(1) and C_(2) of capacitances 1.0muF and 2.0muF respectively. The potential difference V_(A) - V_(B) is 5V

A circuit has a section AB as shown in the fig. With E =10V. C_1= 1.0muF, C_2= 2.0muF and the potential difference V_A–V_B= 5V. The voltage across C_1 is :