Two circular rings of identical radii an...

Two circular rings of identical radii and resistance of `36Omega` each are placed in such a way that they cross each others centre `C_1` and `C_2` as shown in figure. Conducting joints are made at intersection point A and B of the rings. An ideal cell of emf 20 volts is connected across AB. The power delivered by cell is:

Similar Questions

Explore conceptually related problems

Two circular rings of identical radii and resistance 36 Omega are placed as shown the figure. Conducting joints are made at points A and B and a cell of emf 20V is connected between these two points.What is the power (in W ) delivered by the cell ?[ C_(1) and C_(2) are the centres of the two rings ]

A tetrahedral is consisting of 6 identical wires as shown in figure. Each wire is having a resistance of 2Omega . When an ideal cell of emf 2V is connected across AB, as shown then the current through CD is

03.A tetrahedral is consisting of 6 identical wires as shown in figure. Each wire is having a resistance of 2Omega When an ideal cell of emf 2V is connected across AB as shown then the current through CD is ______ ampere

Five resistance, each of 5Omega are connected as shown in figure. Find the equivalent resistance between points (1) A and B , (2) A and C .

A and B are two points on a circular ring made of uniform wire of resistane R. If the part AB of the ring subtends an angle theta at the centre C of the ring as shown below, find the resistance of the ring between the points A and B.

Similar Questions

Recommended Questions