Sound waves cannot travel through a vacuum because it needs a medium and a vacuum has nothing within it that can act as a medium.
Every material has its elastic modulus, and the speed of sound is proportional to the square root of the elastic modulus of that material.
A wave can travel through any material, whether it be a gas, a liquid, or a solid. The only limiting factors are distance and lack of a material to carry the wave.
Vibrations travel through the material, just as they would in air. How well they travel through depends on the material.
liquid
Sound waves travel through matter, whether solid, liquid, or gas. They do not travel through vacuum.
Every material has its elastic modulus, and the speed of sound is proportional to the square root of the elastic modulus of that material.
The velocity of seismic waves is controlled by the density and elastic properties of the material through which they travel. Solids tend to have larger elastic modulii than fluids. As the speed of a seismic wave increases as the elastic modulii increase, this means that they tend to travel faster through solids.
Yes. And very rapidly as well, depending on the coefficient of elasticity. Metals, for example, tend to be highly elastic. Sound waves travel well through metal.
Seismic waves travels faster through solid rock than water because their speed depends on the density and composition of material that they pass through.Solid rock is denser than water, hence the energy from seismic waves transfer faster through solid rock than in water.
A wave can travel through any material, whether it be a gas, a liquid, or a solid. The only limiting factors are distance and lack of a material to carry the wave.
They travel through a material medium.
Sound waves can travel through any compressible material (which means any real material), be it solid, liquid, or gas. Sound waves cannot travel through a vacuum.
Sound is carried by vibrations moving through a material, whether the material is solid, liquid or gaseous. A vacuum is the absence of material and therefore there is no material to vibrate, hence no sound can be passed through a vacuum.
Vibrations travel through the material, just as they would in air. How well they travel through depends on the material.
Liquid
Sound (and vibration) are a wave system of sequential compressions and rarefactions of a material. These waves are mechanical and do need a substance through which to travel. They cannot travel through a vacuum.
it cant travel through light.