A wire of length 12 cm ,resistance `12Omega` and of uniform area of cross section is cut into twelve equla parts ,which are connected to form a sketeton cube . A cell of efm 2V is connected across the two diagonally opposite corners of the cube . Using both the Korchhoff's laws answer the follwing questions .
The current draw from the battery is

A wire of length 12 cm ,resistance 12Omega and of uniform area of cross section is cut into twelve equla parts ,which are connected to form a sketeton cube . A cell of efm 2V is connected across the two diagonally opposite corners of the cube . Using both the Korchhoff's laws answer the follwing questions . The maximum current flowing inan aarm of network is

A wire of length 12 cm ,resistance 12Omega and of uniform area of cross section is cut into twelve equla parts ,which are connected to form a sketeton cube . A cell of efm 2V is connected across the two diagonally opposite corners of the cube . Using both the Korchhoff's laws answer the follwing questions . The effective resistance of the circuit is

A wire of length 12 cm ,resistance 12Omega and of uniform area of cross section is cut into twelve equla parts ,which are connected to form a sketeton cube . A cell of efm 2V is connected across the two diagonally opposite corners of the cube . Using both the Korchhoff's laws answer the follwing questions . The minimum potential difference across an arm of network is

A conductor of resistance 20 Omega having uniform cross sectional area is bent in the form of a closed ring. A cell of emf 1.5 V and of negligible internal resistance is joined to the ring between two points dividing the circumference of the ring in the ratio 3:1 Find the currents flowing through the two parts of the ring .

A wire of 15 Omega resistance is gradually stretched to double its length . IT is then cut into two equal parts. These parts are then connected in parallel across a 3.0 volt battery .Find the current drawn from the battery.

A wire of uniform cross section and length l has a resistance of 16 Omega . It is cut into four equal parts.Each part is stretched uniformly to length l and all the four streteched parts are connected in parallel. Calculate the total resistance of the combination so formed. Assume that stretching of wire does not cause any change in the density of its material.

A wire whose cross sectional area is increasing linearly from its one end to the other, is connected across of battery of V volts.Which of the following quantities remain constant in the wire? a) drift speed b) current density c) electric current d) electric field

Fig. shows a potentiometer with a cell of 2.0V and internal resistance 0.40Omega maintaining a potential drop across the resistor wire AB. A standard cell which maintains a constant emf of 1.02V (for very moderate currents upto a few pA) gives a balance point at 67.3 cm length of the wire. Io ensure very low currents drawn from the standard cell, a very high resistance of 600kOmega is put in series with it which is shorted close to the balance point. The standard cell is then, replaced by a cell of unknown emf e and the balance point found similarly turns out to be at 82.3 cm length of the wire, Would the method work in the above situation if the driver cell of the potentiometer had an emf of 1.0V instead of 2.0V?