A 1000 watt heater is designed to be operated on a 100 volt line. It is connected to two resistances,`10 Omega and R`, as shown in figure. If it now gives a power of 62.5 watt. What is the value of R?

A heater is designed to operate with a power of 1000W in a 100 V line. It is connected in combination with a resistance of 10 Omega and a resistance R , to a 100 V mains as shown in figure. What will be the value of R so that the heater operates with a power of 62.5W ?

A heater is designed to operate with a power of 1000W in a 100V line. It is connected in combination with a resistace of 10 Omega and a resitance. R, to a 100V mains, as shown in Fig. 6.6 What should be the value of R so that the heat operates with a power of 62.5 W ?

A heater is designed to operate with a power of 1000 walts in a 100 volt line. It is connected in a combinations with a resistance of 10 ohms and a resistance R to a 100 volts mains as shown in figure. What should be the value of R so that the heater operates with a power of 62.5 watts. .

A battery of internal resistance 4 Omega is connected to the network of resistance as shown. In order to give the maximum power to the network, the value of R should be-

An ideal diode is connected in a circuit with resistance R=5Omega and V=10 volt as shown in figure maximum and minimum value of output voltage. When no load applied is (assume diode to be ideal)

A potentiometer wire of length 100 cm has a resistance of 10 Omega . It is connected in series with a resistance R and cell of emf 2 V and of of 40 cm of the potentiometer wire. What is the value of R ?

An electric heater is designed to operate in 100V main with a power output of 1000W .When it is connected to a 25V source,power output is: