A 40 cm wire having a mass of 3.2 g is stretched between two fixed supports 40.05 cm apart. In its fundamental mode, the wire vibrates at 220 Hz. If the area of cross section of the wire is `1.0 mm^2`, find its Young modulus.

A 40 cm long wire having a mass 3.2 g and area of cross - section 1 mm^(2) is stretched between the support 40 .05 cm apart. In its fundamental mode , it vibrates with a frequency 1000//64 Hz . Find the young's modulus of the wire.

A steel wire of length 1m is stretched between two rigid supports. The wire is vibrating in its fundamental mode with a frequency 100 Hz. The maximum acceleration at the mid point of the wire is 986 m//s^2 . Then the amplitude of vibration at the midpoint is

Figure shows an aluminium wire of length 60 cm joined to a steel wire of length 80 cm and stretched between two fixed supports. The tension produced is 40 N . The cross-sectional area of the steel wire is 1.0 mm^(2) and that of the aluminimum wire is 3.0 mm^(2) The minimum frequency of a tuning fork which can produce standing waves in the system with the joint as a node is 10P (in Hz ) the find P . Given density of aluminimum is 2.6 g//cm^(3) and that of steel is 7.8 g//cm^(3) .

A decrease in temperature of 40^(@)C produces a 0.1 % strain in a wire stretched between two fixed supports. If the area of cross section of the wire is pi mm^(2) and Young's modulus of its material is 160 GPa, the thermal stress in the wire is

A metal wire is clamped between two rigid supports 1 m apart. It is stretched with a tension of 20 N. If mass of wire is 9.8 g, determine its fundamental frequency.

A wire having a linear density of 0.05 g//cm is stretched between two rigid supports with a tension of 450N. It is observed that the wire resonates at a frequency of 420 Hz. The next higher frequency at which the same wire resonates is 490 Hz. Find the length of the wire.

A wire stretched between two rigid supports vibrates in its fundamental mode with a frequency of 45 Hz. The mass of the wire is 3.5xx10^(-2)kg and its linear mass density is 4.0xx10^(-2)kgm^(-1) . What is the speed of a transverse wave on the wire?

A wire with mass 40.0 g is stretched so that its ends are tied down at points 80.0 cm apart.The wire vibrates in its fundamental mode with frequency 60.0 Hz and with an amplitude at the antinodes of 0.300 cm. (a) What is the speed of propagation of transverse wave in the wire? Compute the tension in the wire. (c) Find the maximum transverse velocity and acceleration of particles in the wire.