(a) For circuits used for transporting e...

(a) For circuits used for transporting electric power, a low power factor implies larger power loss in transmission. Explain.
(b) power factor can oftern be improved by the use of a capacitor of appropraite capacitance in the circuit, Explain.

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For circuits used for transporting electric power, a low power factor implies large power loss in transmission. Explain .

For circuits used for transporting electric power, a low power factor implies large power loss in transmission. Explain.

(a) For circuits used for transporting electric power, a low power factor implies large power loss in transmission. Explain. (b) Power factor can often be improved by the use of a capacitor of appropriate capacitance in the circuit. Explain.

For circuits used for transporting elecrtric power, a low power factor impleis larger power loss in transmission. Explain?

For circuit used for transporting electric power, a low power factor implies large power loss in transmission.

a. For circuits used for transporting electric power, a low power factor implies large power loss in transmission. Explain. b. Power factor can often be improved by the use of a capacitor of appropriate capacitance in the circuit. Explain.

(a) For circuits used for transporting electric power, a low power factor implies larger power loss in transmission. Explain. (b) power factor can oftern be improved by the use of a capacitor of appropraite capacitance in the circuit, Explain.

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(a) For circuits used for transporting electric power, a low power factor implies larger power loss in transmission. Explain.
(b) power factor can oftern be improved by the use of a capacitor of appropraite capacitance in the circuit, Explain.