To form a composite `16 muF, 1000 V` capacitor from a supply of identical capacitors market `8 muF, 250 V`, we require a minimum number of capacitors

To form a composite 16 muF, 100 V capacitor from a supply of identical capacitors market 8 muF, 250 V , we require a minimum number of capacitors

To form a composite 10muF,200V capacitor from a supply of idential capacitors marked 10muF,50V , we require a minimum number of capacitors

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

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

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

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?

Minimum number of capacitors of 4muF capacitance each required to obtain a capacitor of 10muF will be

Minimum number of capacitors of 2muF capacitance each required to obtain a capacitor of 5muF will be

A student requires a capacitor of 3 muF in a circuit across a potential of 1000 V. A large number of 2 muF capacitors are available to him, each of which can withstand a potential difference of not more than 300 V. How should the student arrange these capacitors so that he may use minimum number of condensers ?