A rod of length L and resistance r rotat...

A rod of length `L` and resistance `r` rotates about one end as shown in . Its other end touches a conducting ring of negligible resistence. A resistence `R` is connected between the center and periphery. Draw the electrical equivalence and find the current in resistance `R`. There is a uniform magnetic field `B` directed as shown in .

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A rod of length l and resistance r rotates about one end as shown in figure.Its othr end touches a conducting ring a of negligible resistance. A resistance R is connected between centre and periphery.Draw the electrical equivalence and find the current in the resistance R .There is a uniform magnetic field B directed as shown.

A rod of length l and resistance r rotates about one end as shown in figure.Its othr end touches a conducting ring a of negligible resistance. A resistance R is connected between centre and periphery.Draw the electrical equivalence and find the current in the resistance R .There is a uniform magnetic field B directed as shown.

Inside a supeerconducting ring, six identical resistors each of resistance R are connected as shown in figure. The equivalent resistances.

Inside a supeerconducting ring, six identical resistors each of resistance R are connected as shown in figure. The equivalent resistances.

A network of twelve resistances each of resistance R form a square of square as shown in the figure. The outer square is fitted in in a metal ring of negligible resistance. Find the resistance between centre of the square and the ring.

Solve problem 15 if the length of rod is 2L and resistance 2r and it is rotating about its center. Both ends of the rod now touch the conducting ring.

Solve problem 15 if the length of rod is 2L and resistance 2r and it is rotating about its center. Both ends of the rod now touch the conducting ring.

Solve problem 15 if the length of rod is 2L and resistance 2r and it is rotating about its center. Both ends of the rod now touch the conducting ring.

Thirteen resistances each of resistance R ohm are connected in the circuit as shown in the figure below. The effective resistance between A and B is

Thirteen resistances each of resistance R ohm are connected in the circuit as shown in the figure below. The effective resistance between A and B is

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