To form a capacitor equivalent of `16 muF`, with breakdown voltage of `1000 V`, how many minimum number of capacitance marked `8 muF, 250 V` are required?

A capacitor of 0.75 muF is charged to a voltage of 16 V. What is the magnitude of the charge on each plate of the capacitor ?

A capacitance of 2 muF is required in an electrical circuit across a potential difference of 1.0 kV A large number of 1 muF capacitors are available which can withstand a potential difference of not more than 300 v . The minimum number of capacitors required to achieve this is

Three capacitors each of capacitance C and of breakdown voltage V are joined in series. The capacitance and breakdown voltage of the combination will be

A capacitor of capacitance C_(1)=1 muF withstand a maximum voltage of V_(1)=6 KV , and another capacitor of capacitance C_(2)=2 muF , can with stand a maximum voltage of V_(2)=4KV . If they are connected in series, what maximum voltage will the system withstand?

From a supply of identical capacitors rated 8muF, 250V , the minimum number of capacitors required to form a composite 16muF, 1000V is :

Two capacitor having capacitances 8muF and 16 muF have breaking voltage 20V and 80V . They are combined in series. The maximum charge they can store individually in the combination is

A capaitor of capacitance C_(1) = 1.0 muF withstands teh maximum voltage V_(1) = 6.0 kV while a capacitor of capacitance C_(s) = 2.0 muF , the maximum voltage V_(s) = 4.0 kV . What voltage will the system of these two capacitors withsatand if they are connected in sereis ?

Two capacitor each having capacitance C and breakdown voltage V are joind in series .The capacitance and the breakdown voltage of the combination will be

You are provided with 8mu F capacitors. Show with the help of a diagram how you will arrange minimum number of them to get a resultant capacitance of 20 muF .

Four capacitors each of capacity 8 muF area connected with each other as shown in figure. The equivalent capacitance between points X and Y will be