359268 An electrical technician requires a capacitance of \(2\mu F\) in a circuit across a potential difference of 1 \(KV\). A large number of \(1\mu F\) capacitors are available to him each of which can withstand a potential difference of not more than 400 \(V\). Suggest a possible arrangement that requires the minimum number of capacitors.

359269 The equivalent capacitance between point \({A}\) and \({B}\) is

359270 In this diagram, the P.D. between A and B is 60 V. The P.D. across \(6\mu F\) capacitor is ........ V

359271 Five capacitors, each of capacitance value \(C\) are connected as shown in figure. The ratio of capacitance between \(P\) and \(R\), and the capacitance between \(P\) and \(Q\) is

359272 The equivalent capacitance of the combination shown is

359268 An electrical technician requires a capacitance of \(2\mu F\) in a circuit across a potential difference of 1 \(KV\). A large number of \(1\mu F\) capacitors are available to him each of which can withstand a potential difference of not more than 400 \(V\). Suggest a possible arrangement that requires the minimum number of capacitors.

359269 The equivalent capacitance between point \({A}\) and \({B}\) is

359270 In this diagram, the P.D. between A and B is 60 V. The P.D. across \(6\mu F\) capacitor is ........ V

359271 Five capacitors, each of capacitance value \(C\) are connected as shown in figure. The ratio of capacitance between \(P\) and \(R\), and the capacitance between \(P\) and \(Q\) is

359272 The equivalent capacitance of the combination shown is

359268 An electrical technician requires a capacitance of \(2\mu F\) in a circuit across a potential difference of 1 \(KV\). A large number of \(1\mu F\) capacitors are available to him each of which can withstand a potential difference of not more than 400 \(V\). Suggest a possible arrangement that requires the minimum number of capacitors.

359269 The equivalent capacitance between point \({A}\) and \({B}\) is

359270 In this diagram, the P.D. between A and B is 60 V. The P.D. across \(6\mu F\) capacitor is ........ V

359271 Five capacitors, each of capacitance value \(C\) are connected as shown in figure. The ratio of capacitance between \(P\) and \(R\), and the capacitance between \(P\) and \(Q\) is

359272 The equivalent capacitance of the combination shown is

359268 An electrical technician requires a capacitance of \(2\mu F\) in a circuit across a potential difference of 1 \(KV\). A large number of \(1\mu F\) capacitors are available to him each of which can withstand a potential difference of not more than 400 \(V\). Suggest a possible arrangement that requires the minimum number of capacitors.

359269 The equivalent capacitance between point \({A}\) and \({B}\) is

359270 In this diagram, the P.D. between A and B is 60 V. The P.D. across \(6\mu F\) capacitor is ........ V

359271 Five capacitors, each of capacitance value \(C\) are connected as shown in figure. The ratio of capacitance between \(P\) and \(R\), and the capacitance between \(P\) and \(Q\) is

359272 The equivalent capacitance of the combination shown is

359268 An electrical technician requires a capacitance of \(2\mu F\) in a circuit across a potential difference of 1 \(KV\). A large number of \(1\mu F\) capacitors are available to him each of which can withstand a potential difference of not more than 400 \(V\). Suggest a possible arrangement that requires the minimum number of capacitors.

359269 The equivalent capacitance between point \({A}\) and \({B}\) is

359270 In this diagram, the P.D. between A and B is 60 V. The P.D. across \(6\mu F\) capacitor is ........ V

359271 Five capacitors, each of capacitance value \(C\) are connected as shown in figure. The ratio of capacitance between \(P\) and \(R\), and the capacitance between \(P\) and \(Q\) is

359272 The equivalent capacitance of the combination shown is