sound travels slower through gases as compared to solids and liquids because there is more inter-moleculer space in gas as compared to solids and liquids.
It doesn't, sound travels slowest in air then faster in liquids then solids. Sound traveling through steel in many times faster then through air, for example. Sound travels through vibrations, and the vibrations pass through molecules until they reach your ear. If the molecules are far away it takes longer to pass the vibrations, but if they are closer together they will travel faster. Because the molecules are packed closer together in a liquid the sound travels faster through it, and even faster through solids.
Sound travels faster through liquids than gases because the molecules in liquids are closer together, allowing sound waves to propagate more quickly.
In solids, sound travels through the vibration of molecules in a compressional wave. In liquids, sound also travels through compressional waves but with less resistance to movement compared to solids. In gases, sound travels through the propagation of pressure waves created by vibrating molecules.
Sound travels at different speeds depending on the medium through which it is traveling. Sound travels fastest through solids because the molecules in solids are closely packed and can transmit vibrations quickly. In liquids, sound travels at an intermediate speed, while in gases, sound travels slowest because the molecules are more spread out.
rarer medium- air
It doesn't, sound travels slowest in air then faster in liquids then solids. Sound traveling through steel in many times faster then through air, for example. Sound travels through vibrations, and the vibrations pass through molecules until they reach your ear. If the molecules are far away it takes longer to pass the vibrations, but if they are closer together they will travel faster. Because the molecules are packed closer together in a liquid the sound travels faster through it, and even faster through solids.
Sound travels faster through liquids than gases because the molecules in liquids are closer together, allowing sound waves to propagate more quickly.
In solids, sound travels through the vibration of molecules in a compressional wave. In liquids, sound also travels through compressional waves but with less resistance to movement compared to solids. In gases, sound travels through the propagation of pressure waves created by vibrating molecules.
Sound travels fastest through solids because the molecules are closer together than in liquids or gases. Sound travels fastest through steel.
Sound travels at different speeds depending on the medium through which it is traveling. Sound travels fastest through solids because the molecules in solids are closely packed and can transmit vibrations quickly. In liquids, sound travels at an intermediate speed, while in gases, sound travels slowest because the molecules are more spread out.
rarer medium- air
False. Sound travels faster and more efficiently through liquids than through gases because liquids are denser and allow sound waves to propagate more quickly.
Sound travels fastest through solids because the molecules are closer together, allowing for quicker transmission of energy through the material. Liquids and gases have molecules that are more spread out, resulting in slower transmission of sound waves.
sound (or any wave for that matter) travels fastest through a solid because the molecules are more closely packed together than in a liquid or gas. waves propagate by creating disturbances in molecules. since molecules in a solid are closer, one molecule will disturb an adjacent one sooner.
Sound travels fastest in solids because the molecules are closer together, allowing for the efficient transfer of energy through the material. In liquids and gases, the molecules are more spread out, which hinders the speed of sound transmission.
In general, sound travels fastest through solids, slightly less fast through liquids, and slower through gases. This is because the particles (atoms or molecules) in a solid are touching each other and rather fixed together. That is why a solid is "solid." In a liquid, the particles are touching each other, but they are not fastened to each other quite so strongly as they are in a solid. Some of sound's energy is wasted pushing the particles around because they can slide past each other. Some of sound's energy is wasted that way and that is why it moves slower. In a gas, the molecules are rather far apart. For sound to travel through a gas, the molecules must move quite a distance before they collide with other molecules. Sound energy cannot move as quickly when the molecules are not in contact with each other.
Sound travels faster through solids because the particles in solids are closer together and can transmit vibrations more efficiently. In gases and liquids, the particles are more spread out and the molecules have less interaction to transfer sound waves effectively.