Not in the range of human hearing.
Molecules vibrate making it easy for sound to bounce off
sound is simply the vibration of air molecules. so, sound occurs whenever air molecules are vibrated. but in order for us as humans to hear that sound, the air molecules have to vibrate within a certain frequency range
In order for sound to travel, there has to be something with molecules for it t travel through. On Earth, sound travels by vibrating air molecules, there are no molecules in space, nothing to vibrate
sound
Sound is the effect of disturbances of molecules. Imagine a chain reaction similar to Newton's balls - one molecule hits the next, which hits the next, etc. Sound is the same way - molecules vibrate, causing molecules near them to vibrate. Thus, the closer the molecules are to one another, the faster they will transfer the sound energy, and the faster the sound will travel. The general rule is: more dense = faster sound.
vibrations make air molecules move
Molecules vibrate making it easy for sound to bounce off
sound is simply the vibration of air molecules. so, sound occurs whenever air molecules are vibrated. but in order for us as humans to hear that sound, the air molecules have to vibrate within a certain frequency range
Sounds vibrate the air molecules, when the vibrating molecules reach your ear, you ear the sound, there are no molecules in space, thus no sound in space
Yes, they do. They make a rumbling sound as they vibrate.
Sound travels in waves like light or heat does, but unlike them, sound travels by making molecules vibrate. So, in order for sound to travel, there has to be something with molecules for it to travel through. On Earth, sound travels to your ears by vibrating air molecules. In deep space, the large empty areas between stars and planets, there are no molecules to vibrate. There is no sound there.
In order for sound to travel, there has to be something with molecules for it t travel through. On Earth, sound travels by vibrating air molecules, there are no molecules in space, nothing to vibrate
Liquids and gases can vibrate. In fact sound is the vibration of air molecules.
sound
Sound waves are waves of vibrations. When you speak, you vibrate a few air molecules, which vibrate and hit other air molecules, then more and more. when the molecules in your ear vibrate, you hear sound. But really, you feel the vibrations. Then why do we say hear, instead of feel? Because we are already used to saying hear. you wouldn't come to your friend and say, "Speak louder! I can't feel you!"
Sound is the effect of disturbances of molecules. Imagine a chain reaction similar to Newton's balls - one molecule hits the next, which hits the next, etc. Sound is the same way - molecules vibrate, causing molecules near them to vibrate. Thus, the closer the molecules are to one another, the faster they will transfer the sound energy, and the faster the sound will travel. The general rule is: more dense = faster sound.
Because the molecules are less dense and they vibrate faster letting sound travel faster