You are given a number of capacitors labelled as 8μF - 250V. Find the number of capacitors needed to get an arrangement equivalent of 16μF - 1000V.

Given a number of capacitors labelled as C,V . Find the minimum number of capacitors needed to get an arrangement equivalent to C_(net),V_(net) .

From a supply identical capacitors rated 8 mu F , 250V ,the minimum number of capacitors required to form a composite 16 mu F , 2000V is

Minimum number of capacitors each of 8 muF and 250 V used to make a composite capacitor of 16 muF and 1000 V are

Find the atomic number of atom when given that its ionisation potential is equal to 122.4 V .

A parallel -plate capacitor having plate area 25.0 cm^ and a separation 2.00 mm between the plates .the capacitor is connected to a bettery of 12.0 V.(a)find the charge on the capacitor .(b) the plate separation is decrerased to 1.00 mm. Find the extra charge given by the bettery to the positive plate.

In the circuit shown in the figure all the capacitors have capacitance C. (a) Find the charge on capacitors marked as 1 and 2 when a battery of emf V is connected across points A and B. (b) Find the equivalent capacitance across points C and D marked in the Figure. (c) Find the equivalent capacitance across points E and G.

Fig. shows a network of capacitors where the numbers inidicate the capacitance in microfarel. Find the value of capacitance C if the equivalent capacitance between A and B is to be 2 mu F .

It is possible to obtain a large potential difference by charging a number of capacitors in parallel and then disconnecting them to connect them again in series. What maximum potetnial difference can be obtained using 10 capacitors each of 5 muF and a charging source of 400 V ?