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Dan says:"In space, no one can hear you scream." I think we've all heard that quote.The sun sends light to the Earth, and although space is near absolute zero, we still feel the heat from the sun here on Earth. So light is able to travel through space and maintain its heat, right?Much like light travels, If an astronaut screams in their space helmet, would the sound energy leave the helmet and go into space? So if another astronaut was close enough, would they be able to hear the scream?What do you think?
Sound is the propagation of disturbances in a gas such as air. No gas, no sound.
how closely “packed” do the molecules have to be to allow the waves to form?
I’ve always accepted that as a “given”, but one of the good things about this sort of forum is that reading posts like this sometime sparks new thoughts about familiar things.My thought is, if sound propagates by disturbing the molecules of the gas, such that waves are formed, and that it is these waves that propagate; how closely “packed” do the molecules have to be to allow the waves to form?Space is not empty, but, presumably is too rarefied for wave formation.As a gas expands, is there a cut-off point beyond which sound will no longer propagate through it?
When I am watching spacebattles in the Star Wars I turn off the sound to make it look more realistic
You can't scream in space because your lungs will be empty.
Fun fact. Originally, the fly by of the Enterprise in the opening credits of Star Trek was going to be silent (no sound in space). However upon viewing, it felt flat. We are just too used to expecting a sound when something goes by fast. Without it something seemed lost.
Essential. If the ship suddenly changed direction without banking, the crew would all be squished to one side,or fall over, depending on what artificial gravity system they use to keep them upright in straight flight.
Quote from: Pete Sound is the propagation of disturbances in a gas such as air. No gas, no sound. I’ve always accepted that as a “given”, but one of the good things about this sort of forum is that reading posts like this sometime sparks new thoughts about familiar things.My thought is, if sound propagates by disturbing the molecules of the gas, such that waves are formed, and that it is these waves that propagate; how closely “packed” do the molecules have to be to allow the waves to form?Space is not empty, but, presumably is too rarefied for wave formation.As a gas expands, is there a cut-off point beyond which sound will no longer propagate through it?
This is like asking "Is the kitchen table flat?" Well with a micrometer used to measure the flatness then its flat. If you use a tunneling electron microscope then nothing is flat.
This seems to say: "Yes, there is, but good luck finding it."
Not so much "luck" needed, more a matter of reading the thread, and finding out that the cut off is where the mean free path is of the same order as the wavelength.
I think the mean free path of the gas particles would have to be somewhat shorter than the wavelength of the waves to be propagated.