why does sound not travel in space
Can you hear sounds in space? Now you ve probably heard that there s no sound in space, but. Now yes, space is a virtual vacuum. However, sound does exist in the form of electromagnetic vibrations that pulsate in similar wavelengths. What did was design special instruments that could record these electromagnetic vibrations, and transferred them into sounds that our ears could hear. What you re about hear is actual sound in space, nothing has been. It s a beautiful, yet haunting sound that music legend
would be jealous of. Make sure to check out all 12, especially the sounds of the sun!! Can you hear sounds in space? I don t know about you but I got chills on a few of those. Make sure to give this a share on Facebook before you go, and drop us a comment below. Also, if you thought this was interesting, make sure you check out what happened when. (h/t This article was originally published on. Read the. We know that there is in the solar systemâplaces where thereâs a medium through which sound waves can be transmitted, such as an atmosphere or an ocean. But what about empty space? You may have been told definitively that space is silent, maybe by your teacher or through the marketing of the movie Alien â'In space, no one can hear you scream. ' The common explanation for this is that space is a vacuum and so thereâs no medium for sound to travel through.
But that isnât exactly right. Space is never completely emptyâthere are a few particles and sound waves floating around. In fact, sound waves in the space around the Earth are very important to our continued technological existence. They also sound pretty weird! Space sounds. Fundamentally, sound waves are that travel through the medium that theyâre in. In most cases, this is a series of compressionsÂ where molecules are closer together, and rarefactions, where they are further apartâcaused by the molecules themselves moving backwardÂ and forward. Here on the ground there is quite a lot of air aroundâeach square centimetre of it contains 300,000,000,000,000,000,000 molecules. In contrast, in interplanetary space on average youâll find just five protons (which make up the atomic nucleus with neutrons) in the same volumeâalmost completely empty in comparisonâ but not quite. Notice how I say protons, because space (like 99. 9% of the entire universe) isnât filled with gas but with plasmaâ made of charged particles. These charged particles mean that plasma can have some different properties: for instance, they can generate and be affected by electric and magnetic fields.
These kinds of interactions can give rise to the plasma-equivalent of sound waves: magnetosonic waves. These too are pressure waves, but with some added magnetism. We canât hear these magnetosonic waves in space. That is because the pressure variations are so small: aÂ -100dB sound-pressure level (the human hearing threshold is about +60dB). In fact, youâd need an eardrum comparable to the size of the Earth to hear them. Their ultra-low frequencies are also way below what we would be able to hear. So if we canât hear them, why do we care about them? Well, in Earthâs magnetosphereâthe protective magnetic bubble we live in that largely protects us from various âthese magnetosonic waves can transfer energy around. For example, they can give it to the radiation belts, donuts of radiation surrounding the Earth, creating 'killer electrons'Â at extreme energies that can damage our satellites if weâre not careful. This is why I study these wavesâif we can predict when, where and why these waves occur in the space around the Earth, then we could forecast when our satellites might be in trouble and put them into a safe mode.
One of the ways we listen out for these sounds is using geostationary satellites thatÂ primarily monitor the weather. As well as all those instruments that can tell you whether to pack an umbrella, they have 'magnetic microphones'Â that can detect these waves. The problem for scientists is separating out all the different types of sound that are present in space. Fortunately, it turns out the human auditory system is pretty good at this sort of thing, some have even called it the best pattern recognition software that we know of. For this very reason, Iâm asking for you to lend me your ears. By amplifying these space sounds and squashing them in time so a whole year becomes just six minutes, they can be made audible. The audio has been, where you can provide comments on what you think various bits of it sound like. There is so much going on in these sounds, but crowdsourcing comments on them will help identify different types of wave events and ultimately help with the scientific research. So have a listen to some pretty odd sounds from space, because only you can tell me what you hear. Â is a Space Plasma Physicist atÂ
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