Speed Of Longitudinal Waves In Water And Granite

I calculate the speed of longitudinal waves in a water b granite and c steel step by step solution.

Speed of longitudinal waves in water and granite.

Rayleigh waves are distinct from other types of surface or guided acoustic waves such as love waves or lamb waves both being types of guided waves supported by a layer or longitudinal and shear waves that travel in the bulk. A cord of mass 0 55 kg is stretched between two supports 30 m apart. Calculate the speed of longitudinal waves in a water b granite and c steel. Either way i simply looked up the speed of sound in each of the substances sound is a longitudinal wave.

And two is for water because this cop equation over here ah i was actually only first waves longitudinal waves propagating in a solid which which granite and steal both our and this equation here is for those those waves traveling to a liquid or a gas water is a liquid. For example the speed of sound in air and other gases depends on temperature. The speed of longitudinal waves traveling in a long solid rod is given by v y p where y is young s modulus and is the density of the solid. Calculate the speed of longitudinal waves in a water b granite and c steel.

Determine the wavelength of a 6 000 hz sound wave traveling along an iron rod. So this is for so one is for you. If a disturbance has a frequency of 40 hz. Steel stainless 5790 m s.

Water distilled 1497 m s. Rayleigh waves have a speed slightly less than shear waves by a factor dependent on the elastic constants of the material.