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.

Young 's modulus of steel is 2.0 xx 10^(11)N m//(2) . Express it is "dyne"/cm^(2) .

A steel rod of length l_(1) = 30 cm and two identical brass rod of length l_(2)= 20 cm each support a light horizontal platform as shown in Fig. Cross-sectional area of each of the three rods is A = 1 cm^(2) . A vertically downward force F= 5000 N is applied on the platform. Young's modulus of elasticity for steel Y_(s)=2xx10^(11)Nm^(-2) and brass Y_(b) = 1 xx 10^(11) Nm^(-2) . Find stress (in MPa ) developed in a. Steel rod b. Brass rod

For aluminium the bulk modulus and modulus of rigidity are 7.5xx10^(10) Nm^(-2) . Find the velocity of longitudinal waves in the medium. Density of aluminium is 2.7xx10^(3) kgm^(3) .

The Youngg's modulus of a material is 6 xx 10^(10) Nm^(-2) and its bulk modulus is 2.8 xx 10^(10) Nm^(-2) . What is its Poisson's ratio ?

For brass, bulk modulus and modulus of rigidity are 10.72 xx 10^(10)Nm^(-2) and 3.6 xx 10^(10)Nm^(-2) . If the density of brass is 8.4 xx 10^(3) kgm^(-3) , find the speed of longitudinal and transverse waves in it.

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 ?

A steel rod 2.5 m long is rigidly clamped at its centre C and longitudinal waves are set up on both sides of C by rubbing along the rod . Young's modulus for steel = 2 xx 10^(11) N//m^(2) , density of steel = 8000 kg//m^(3) If the clamp of the rod be shifted to its end A and totally four antinodes are observed in the rod when longitudinal waves are set up in it , the frequency of vibration of the rod in this mode is

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.

A metallic rod of length 1 m, young's modulus 3xx10^(11)Nm^(-3) and density is 7.5xx10^2 (kg)/m^3 clamped at its middle. Longitudinal stationary vibrations are produced in the rod with the total number of displacement nodes equal to 3. The frequency of vibrations is

Calculate the Poisson's ratio for steel. Given that Young's modulus is 2 xx 10^(11) Nm^(-2) and rigidity modulus is 8 xx 10^(10) Nm^(-2) .