A uniform metallic wire has a resistance of 18 `Omega` and is bent into an equiolateral triangle. Then, the resistance between any two vertices of the triangle is :

A wire has a resistance of 12 ohm . It is bent in the form of equilateral triangle. The effective resistance between any two corners of the triangle is

A wire has resistance of 24 Omega is bent in the following shape. The effective resistance between A and B is

Three resistance each of 4Omega are connected to form a triangle. The resistance between any two terminals is

A metallic wire having a resistance of 20Omega is bent in order to form a complete circle. Calculate the resistance between any two diametrically opposite points on the circle.

A wire has resistance 12 Omega . It is bent in the form of a circle. The effective resistance between two points across a diameter is.

Three resistors each of 2 ohm are connected together in a triangular shape. The resistance between any two vertices will be

The resistance of each side of an equilateral triangle is 6 ohm. Calculate the equivalent resistance between ends of a side.

A metal wire has a resistance of 35Omega . If its length is increased to double by drawing it, then its new resistance will be

A wire has a resistance of 10Omega . It is stretched by 1//10 of its original length. Then its resistance will be

A uniform wire of resistance 36Omega is bent in the form of a circle. The Effective resistance between A and B is (O is the centre of circle):