Current P through a certain non-metallic rod is given as `i_(0)=0.2V^((3)/(2))` where V is potential difference across it. The rod is connected in series with a resistance to a 12 volt ideal bettery. What should be resistance ( in `Omega`) so that power dissipated in the resistance is twice that of rod.

The current I through a rod of a certain metallic oxide is given by I=0.2 V^(5//2) , where V is the potential difference across it. The rod is connected in series with a resistance to a 6V battery of negligible internal resistance. What value should the series resistance have so that: (i) the current in the circuit is 0.44 (ii) the power dissipated in the rod is twice that dissipated in the resistance.

The internal resistance of a 2.1 V cell which gives a current 0.2 A through a resistance of 10 Omega

What resistance should be connected in series with a 0.5 A ammeter to convert it into a 15 V voltmeter ? Given that the resistance of ammeter.

the current developed in a real conductor is given I=aV^(1//2), where V is the potential difference acid the conductor. When it is connected with resistance of R Omega in series with a battery of 6 volt shown in the figure , the power developed in conductor is twice the power generated in resistance of R Omega . find the value of R."["a=0.2 A "Volt"^(-1//2)"]"

In the given circuit, the potential difference across the capacitor is 12V . Each resistance is of 3Omega . The cell is ideal. The emf of the cell is

The potential difference across terminals of cell of 20 V and r = 2 Omega connected to 8 Omega external resistance is

A diode having potential difference 0.5 V across its junction which does not depend on current, is connected in series with resistance of 20 Omega across source. If 0.1A passes through resistance then what is the voltage of the source?