Sound travels by particles (such as atoms or molecules) bumping into other particles, thus transferring the energy, in form of a sound.
Sound is a compression wave that travels via then vibrations of particles. If the particles are closer together then the wave (sound) moves faster. Particles are closer together in a liquid than a gas, therefore sound travels faster through liquids.
Generally, sound moves faster through a solid than through a liquid. This is because the molecules of a solid are more condensed than those of a liquid. However, sound does not move faster through all solids than through all liquids.1
Dense materials usually mean the atoms are closer to each other. Sound waves travel by causing vibration and transfer of energy. The close the atoms, the easier it is to transfer the energy. As the result, sound travels fastest in solid, then liquid, the least in gas matters.
Light is the fastest thing on earth as we know it. Traveling at a astonishing speed of 186,282 miles in one second!!
Sound can travel through fire as it does not directly affect sound. Sound travels in waves which can pass through solid objects but this limits the distance they can go.
sound can travel past in solid because the molecules of solid is tightly closed and next liquid the molecules of liquid not so far away to each other and the slower is gas but it can travel longer than solid and liquid because the molecules in gas are far way and can move freely that can travel longer...
Solid
A liquid
Yes sound can travel in liquid, its speed is lesser than that in solid and more than that of gas.
A medium. Gas, liquid or solid. It can't travel in a vacuum.
Sound is a series of vibrations. In a solid they travel in waves from particle to particle, causing the solid to make a noise.
No. Sound waves must travel through a medium, such as air, liquid, or a solid.
Sound waves travel through matter, whether solid, liquid, or gas. They do not travel through vacuum.
They travel faster through solids
Any medium - solid, liquid or gas.
Only by longitudinal mode
Solid. Because it's more dense.