Two wires of same material of radii 2r and r are welded together end to end The combination is used as a sonometer wire and is kept under tension T. The welded point lies midway between the bridges. What wil be the ratio of the number of loops formed in the wires, such that the joint is node when the stationary waves are set up in the wire?

Two wires of radii r and 2 r are welded together end to end . The combination is used as a sonometer wire and is kept under a tension T . The welded point lies midway between the bridges. The ratio of the number of loops formed in the wires , such that the joint is a node when the stationary waves are set up in the wire is

Two wires of radii r and 2 r are welded together end to end . The combination is used as a sonometer wire and is kept under a tension T . The welded point lies midway between the bridges. The ratio of the number of loops formed in the wires , such that the joint is a node when the stationary waves are set up in the wire is

Two wires of radii r and 2r are welded together end to end. The combination is used as a sonometer wire and is kept under a tension T. The welded point is midway between the bridges. The ratio of the number of loops formed in the wires, such that the joint is a node when stationary vibrations are set up in the wires, is

Two wires W_(1) "and"W_(2) have the same radius r and respective densities p_(1) "and" p_(2) such that p_(2) = 4p_(1). They are joined together at the point O, as shown in the figure. The combination is used as a sonometer wire and kept udner tension T. The point O is midway between the two bridges. When a stationary waves is set up in the composite wire, the joint is found to be a node. The ratio of the number of antinodes formed in W_(1) "to" W_(2) is-

Two wires W_(1) "and"W_(2) have the same radius r and respective densities p_(1) "and" p_(2) such that p_(2) = 4p_(1). They are joined together at the point O, as shown in the figure. The combination is used as a sonometer wire and kept udner tension T. The point O is midway between the two bridges. When a stationary waves is set up in the composite wire, the joint is found to be a node. The ratio of the number of antinodes formed in W_(1) "to" W_(2) is-

Two wires W_(1) "and"W_(2) have the same radius r and respective densities p_(1) "and" p_(2) such that p_(2) = 4p_(1). They are joined together at the point O, as shown in the figure. The combination is used as a sonometer wire and kept udner tension T. The point O is midway between the two bridges. When a stationary waves is set up in the composite wire, the joint is found to be a node. The ratio of the number of antinodes formed in W_(1) "to" W_(2) is-

One end of wires of the same metal and of same length (with radius, r and 2r ) are joined together. The wire is used as sonometer wire and the junction is placed in between two bridges. The tension T is applied to the wire. If at a junction a node is formed then the ratio of number of loops formed in the wires will be:

One end of wires of the same metal and of same length (with radius, r and 2r ) are joined together. The wire is used as sonometer wire and the junction is placed in between two bridges. The tension T is applied to the wire. If at a junction a node is formed then the ratio of number of loops formed in the wires will be: