A 6 V battery is connected to the terminals of a 3m long wire of uniform thickness and resistance fo `100Omega` .The difference of potential between two points on the wire seperated by a distance of 50cm well be

A 6 V battery is connected to the terminals of a 3 m long wire of uniform thickness and resistance of 100 Omega . The difference of potential between two points on the wire separated by a distance of 50 cm will be

A battery of 6 volts is connected ot the termainals of a three meter long wire of uniform thickness and resistance of the order of 100 Omega . The difference of potential between two points separated by 50 cm on the wire will

A potentiometer consists of a wire of length 4 m and resistance 10Omega . It is connected to a cell of emf 2V.The potential gradient of the wire is

If a ideal battery of e.m.f.10 V is connected with external resistance 9Omega and a wire of length 10 m and resistance 1Omega in series as shown. Then the potential gradient of wire is

A capacitor of capacitance 1muF is connected in parallel with a resistance 10Omega and the combination is connected across the terminals of a battery of EMF 50 V and internal resistance 1Omega . The potential difference across the capacitor at steady state is (in Volt)

The emf of a daniel cell is 1.08 V. When the terminals of the cell are connected to resistance of 3Omega , the potential difference across the terminals is found to be 0.6 V. Then , the internal resistance of the cell is

A voltmeter having a resistance of 1800 Omega employed to measure the potential difference across a 200 Omega resistor which is connected to the terminals of a dc power supply having an emf of 50 V and an internal resistance of 20 Omega . What is the percentage decrease in the potential difference across the 200 Omega resistor as a result of connecting the voltmeter across it?

A thin uniform wire AB of length 50 cm and resistance 1 Omega is connected to be terminals of a battery of emf epsilon_(1) = 2.2 V and internal resistance 0.1 Omega . If the terminals of another cell (assume ideal) are connected to two points 25 cm apart on the wire AB without altering the current in the wire AB, the emf epsilon_(2) of cell in volts is :

In a potentiometer experiment, the galvanometer shows no deflection when a cell is connected across 60 cm of the potentiometer wire. If the cell is shunted by a resistance of 6 Omega , the balance is obtained across 50 cm of the wire. The internal resistance of the cell is

A battery of emf E_0=12V is connected across a 4 m long uniform wire having resistance 4Omega//m . The cell of small emfs epsilon_1=2V and epsilon_2=4V having internal resistance 2Omega and 6Omega respectivley are connected as shown in the figure. If galvanometer shows no diflection at the point N the distance of points N from the point A is equal to