Six `1 mu F` capacitors are so arranged that their equivalent capacitance is `0.70 mu F`. If a potential difference of 600 volt is applied to the combination, what charge will appear on each capacitor ?

A 5 mu F capacitor is connected in series with a 10 mu F capacitor. When a 300 Volt potential difference is applied across this combination, the energy stored in the capacitors is

In fig, the values of capacitances are as follow C_(1) = C_(2) = C_(3) = C_(4) = 4mu F, C_(5) = 5 mu F Calculate the equivalent capacitance between the points P and Q. If a battery of 10 volt is connected between these points, what will be the charge on each capacitor ?

Two capacitors of capacites 1 mu F and C mu F are connected in series and the combination is charged to a potential difference of 120 V . If the charge on the combination is 80 muC , the energy stored in the capacitor C in micro joules is :

A potential difference of 300 volts is applied to a combination of 2.0 muF and 8.0 muF capacitors connected in series. The charge on the 2.0 muF capacitor is

A network of four capacitors each of 15 mu F four capacitors each of the muF capacitance is connected to a 500 V supply as shown in the figure . Determine (a) equivalent capacitance of the network and (b) charge on each capacitor .

In the circuit shown , charge on the 5 mu F capacitor is :

Three capacitors of 3 mu F,2 mu F and 6 mu F are connected in series. When a battery of 10 V is connected to this combination then charge on 3 mu F capacitor will be.

While working on a physics project at school physics, lab, you require a 4 mu F capacitor in a circuit across a potential difference of 1 k V. Unfortunately, 4 mu F capacitors are out or stock in your lab but 2 mu F capacitors which can withstand a potential difference of 400 V are available in plenty . if you decide to use the 2 mu F capacitors in place of 4 mu F capacitor minimum number of capacitors required are

Four capacitors each of 8 mu F , are joined as shown in the figure. The equivalent capacitance between the points A and B is

Consider the circuit shown with key opened. Capacitor -1 ( 3 mu F) is charged to potential difference of 9V Capacitor -2 ( 6 mu F) is charged to potential difference of 3V. The key is now closed . What will be the potential difference ( in V) across capacitor-1 in steady state ?