The density of aluminium is `2.7 xx 10^(3) kg//m^3` and its Young's modulus is `7.0 xx 10^(10)N//m^2`. Calculate the velocity of sound wave in the bar.

An aluminum rod having a length 100 cm is clamped at its middle point and set into longitudinal vibrations. Let the rod vibrate in its fundamental mode. The density of aluminum is 2600 kg//m^(3) and its Young's modulus is 7.8xx10^(10) N//m^(2) . The frequency of the sound produced is :-

A granite rod of 60 cm length is clamped at its middle point and is set into longitudinal vibrations. The density of granite is 2.7 xx10^(3) kg//m^(3) and its Young’s modulus is 9.27 xx10^(10) Pa. What will be the fundamental frequency of the longitudinal vibrations ?

An aluminium wire is clamped at each end and under zero stress at room temperature. Temperature of room decreases resulting into development of thermal stress & thermal strain in the wire. Cross-sectional area of the wire is 5.00 xx10^(-6)m^(2). Density of aluminium is 2.70 xx10^(3) kg//m^(3). Young’s modulus of aluminium is 7.00 xx10^(10) N//m^(2). A transverse wave speed of 100 m/s generates in the wire due to a resulting thermal strain ((Deltal)/(l)) developed in the wire. The thermal strain ((Delta l )/(l)) is: (l is original length of the wire)

The Young's modulus of brass is 9.1 xx 10^(10) N //m^(2) and its rigidity modulus is 3.5 xx 10^(10) N //m^(2) . Calculate its Poisson's ratio ?

An iron sphere of diameter 10 mm falls through a column of oil of density 940 kg//m^(3) . The density of iron is. 7.8 xx 10^(3) kg//m^(3) . The coefficient of viscosity of oll is 4.48 Ns//m^(2) . Caleulate the terminal velocity attained by the ball.

The density of iron is 7.8xx 10^3 "kg m"^(-3) What is its relative density?

Longitudinal waves of frequency 400Hz are produced in a rod of material of density 8000 kg//m^3 and Young modulus 7.2 xx 10^(10) N//m^2 . What is the wavelength of the wave?

For steel the Young modulus of elasticity is 2.9 xx 10^(11)Nm^(-2) and density is 8 xx 10^(3)kgm^(-3) . Find the velocity of the longitudinal waves in steel.

A rubber pipe of density 1.5 xx 10^(3) N//m^(2) and Young's modulus 5 xx 10^(6) N//m^(2) is suspended from the roof. The length of the pipe is 8m. What will be the change in length due to its own weight.

Clamped at the middle a metal rod of length 1m and density 7.5 xx 10^(3)kg//m^3 gives dust heaps at intervals of 8cm. Calculate the Young's modulus of the material of the rod. Velocity of sound in the gas used in 400m/s.