A 220 V ac supply is connected between points A and B as shown 220 V in figure. What will be the potential AC difference V across the capacitor?

A 220 V AC supply is connected between points A and B . What will be the potential difference V across the capacitor ?

A 220 V AC supply is connected between points A and B. What will be potential difference across capacitor C ?

Five capacitors are connected across a battery of 5V as shown in figure (o). Calculate the potential difference across the plates of the 5muF capacitor.

A 80 Omega resistor a 2 H inductor and a 5.07xx10^(-6) F capacitor are connected in series to an AC power supply of 220 V, 50 Hz. Calculate the potential difference across the resistor.

In figure C_1=C_5=8.4muF and C_2=C_3=C_4=4.2muF .The applied potential is V_(ab)=220V (a) What is the equivalent capacitance of the network between points a and b ? (b) Calculate the charge on each capacitor and the potential difference across each capacitor.

The potential difference (V_A-V_B) between the point A and B as shown in the figure is

Two, capacitors A and B are connected in series across a 100 V supply and it is observed that the potential difference across them are 60 V and 40 V . A capacitor of 2 p.F capacitance is now connected in parallel with A and the potential difference across B rises to 90 V . Determine the capacitance of A and B

A battery of e.m.f. 10 V is connected to resistance as shown in figure. The potential difference V_(A) - V_(B) between the point A and B is

Four capacitors are connected as shown in figuere to a 30 V battery. The potential difference between points a and b

An electrical heater and a capacitor are joined in series across a 220V, 50Hz, AC supply. The potential difference across the heater is 90V . The potential difference across the capacitor will be about: