The capacitors each of capacity `4 muF` are to be connected in such a way that the effective capacitance is `6 muF`. This can be done by

Three capacitors each of capacity 4 muF are to be connected in such a way that the effective capacitance is 6 muF . This can be done by

Three capacitors each of capacity 4 muF are to be connected in such a way that the effective capacitance is 6 muF . This can be done by

Three capacitors each of capacity 4 muF are to be connected in such a way that the effective capacitance is 6 muF . This can be done by

Seven capacitors each of capacitance 2muF are to be connected in a configuration to obtain an effective capacitance of (10/11)muF . Which of the combination (s) shown in figure will achieve the desired result?

Seven capacitors, each a of a cpacitance 2muF , are to be connected in a configuration to obatin an effective capacitance of ((16)/(13))muF . Which of the combinations, shown in figure below, will achieve the desired value ?

The effective capacitence in muF in between A and B will be

Some capacitors each of capacitance 30 muF are connected as shown in. Calculate the equivalent capacitance between terminals A and B .

Six identical capacitors each of capacitance 2 muF are connected as shown below. The equivalent capacitance between the points A and B is

Three capacitors 2muF,3muF and 6muF are joined with each other. What is the minimum effective capacitance?

Three capacitors of capacitance 3 muF are connected in a circuit. Then, their maximum and minimum capacitance will be