Two wires of different densities but same area of cross section are soldered together at one end and are stretched to a tension T. The velocity of a transverse wave in the first wire is double of that in the second wire. Find the ration of the denstiy of the first wire to that of the second wire.

Two wires of different densities but same area of cross-section are soldered together at one end and are stretched to a tension T. The velocity of a transverse wave in the first wire is double of that in the second wire. Find the ratio of the density of the first wire to that of the second wire.

Two wires of different densities but same area of cross-section are soldered together at one end and are stretched to a tension T . The velocity of a transverse wave in the first wire is double of that in the second wire. Find the ratio of density of the first wire to that of the second wire.

Two wires of different densities but same area of cross-section are soldered together at one end and are stretched to a tension T . The velocity of a transverse wave in the first wire is double of that in the second wire. Find the ratio of the first wire to that of the second wire.

Two identical wires of different materials are stretched by the same tesion. Velocity of transverse wave in both the string is

Two wires of different linear mass densities are soldered together end to end and then stretched under a tension F . The wave speed in the first wire is thrice that in the second. If a harmonic wave travelling in the first wire is incident on the junction of the wires and if the amplitude of the incident wave is A = sqrt(13) cm , find the amplitude of reflected wave.

Two wires of different linear mass densities are soldered together end to end and then stretched under a tension F . The wave speed in the first wire is thrice that in the second. If a harmonic wave travelling in the first wire is incident on the junction of the wires and if the amplitude of the incident wave is A = sqrt(13) cm , find the amplitude of reflected wave.

Two wires of different densities are soldered together end to end then stretched under tension T. The waves speed in the first wire is twice that in the second wire. (a) If the amplitude of incident wave is A, what are amplitudes of reflected and transmitted waves? (b) Assuming no energy loss in the wire, find the fraction of the incident power that is reflected at the junction and fraction of the same that is transmitted.