The resistive network shown below is connected to a D.C. source of 16V. The power consumed by the network is 4 Watt. The value of R (in `Omega`) is _______.

100 W,220V bulb is connected to 110V source. Calculate the power consumed by the bulb.

Two resistors of 6 Omega " and " 9 Omega are connected in series to a 120 V source. The power consumed by the 6 Omega resistor is

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

In the circuit shown the cell will deliver maximum power to the network if the value of R is

A battery of internal resistance 4Omega is connected to the network of the resistance as shown in figure . If the maximum power can be delivered to the network, the magnitude of resistance in Omega should be

Two bulbs when connected in parallel to a source take 60 W each, the power consumed, when they are connected in series with the same source is

Two bulbs when connected in parallel to a source take 100 W each. The total power consumed when they are connected in series with the same source is

Bulb A and bulb B consume power 100 W and 60 W respectively when they are connected to a 220 V supply individually. The total power consumed by the bulbs if they are placed in series and then connected with the same supply is _________W.

A network of resistors is connected to a 16V battery as shown in the following figure. Compute the equivalent resistance of the network.

In the circuit shown below, the power developed in 6Omega resistor is 6 watt. The power in watts developed in the 4Omega resistor is