An aluminium wire of length 0.6 m and cross sectioal are and length 0.866 m .The compound wire is loaded with 10kg.Find the lowest frequency of exciation for which the joint In the the wire.The density of alumimium is 2600 kg `m^(-3)` and that of steel is 7800 `kgm^(-3)`

An aluminium wire of cross-sectionbal area 1 xx 10^(-6)m^(2) is joined to a steel wire of same cross-sectional ara. This compound wire is stretched on a sonometer, pulled by a weight of 10 kg . The total length of the compound wire between the bridges is 1.5 m , of which the aluminium is 0.6 m and the rest is steel wire. Transverse vibrationas are set up in the wire by using an ecternal force of variable frequency. Find the lowest frequency of excitation for which standing waves are formed such that the joint in the wire is a node. What is the total number of nodes observed at this frequency, excluding the two at the ends of the wire? The density of aluminium is 2.6 xx 10^(3) kg//m^(3) and that of steel is 1.04 xx 10^(4) kg//m^(3) .

A steel wire of length 50sqrt(3) cm is connected to an aluminium wire of length 60 cm and stretched between two fixed supports. The tension produced is 104 N , if the cross section area of each wire is 1mm^(2) . If a transverse wave is set up in the wire, find the lowest frequency for which standing waves with node at the joint are produced . (density of aluminimum = 2.6 gm//cm^(3) and density of steel = 7.8 gm//cm^(3) ).

An aluminium wire and a steel wire of same cross-sectional of 10^(-2)cm^(2) were connected together. A 10 kg block loaded on the compound wire as shown in figure. Waves are set up in the compound wire. The minimum frequency of excitation for which standing waves are observed with point A as a node is [L_(1)=60cm,L_(2)=86.6cm] density of aluminium =2.6g//cm^(3) and of steel= 7.8g//cm^(3) ]

A sonometer wire of length 1 m is stretched by a weight of 10 kg. The fundamental frequency of vibration is 100 Hz. Determine the linear density of material of wire.

An alumminium rod and steel wire of same length and cross-section are attached end to end. Then compound wire is hung fron a rigid support and load is suspended from the free end. Y for steel is ((20)/(7)) times of aluminium. The ratio of increase in length of steel wire to the aluminium wire is