Will we be able to hear the sound of any planetary objects bumping against each other if we are in the space? Give reason
Answers
Answered by
3
Hi friend
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Your answer
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NO,
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WE WILL NOT BE ABLE TO HEAR SOUND OF ANY PLANETARY OBJECTS BUMPING AGAINST EACH OTHER BECAUSE THERE IS "VACUUM" IN SPACE.
BUT SOUND REQUIRES A MEDIUM YO TRAVEL THUS IT CANNOT TRAVEL IN VACUUM WHERE VIBRATION CANNOT PROPAGATE.
HOPE IT HELPS
#ARCHITECTSETHROLLINS
--------------
Your answer
-------------------
NO,
------
WE WILL NOT BE ABLE TO HEAR SOUND OF ANY PLANETARY OBJECTS BUMPING AGAINST EACH OTHER BECAUSE THERE IS "VACUUM" IN SPACE.
BUT SOUND REQUIRES A MEDIUM YO TRAVEL THUS IT CANNOT TRAVEL IN VACUUM WHERE VIBRATION CANNOT PROPAGATE.
HOPE IT HELPS
#ARCHITECTSETHROLLINS
ArchitectSethRollins:
pease mark as brainliest please
OK ty anyway for answering I really helps
THANKS
Answered by
2
In empty space, there is no air, and what we call "sound" is actually vibrations in the air. Now, like you've said, there are indeed light waves and radio waves in space, but these waves are not sound, but light. Light does not need air to travel, but then you don't hear it; you see it, or it is interpreted by your radio set and then translated into sound.
Astronauts in space do talk to each other. In the spacecraft, there is plenty of air, so they just talk normally. When they are spacewalking, they talk by means of radios in their helmets. The radio waves, again, have no problem in space, but they're not sound. They're radio, which has to be converted into sound by the astronauts' headsets.
Astronauts in space do talk to each other. In the spacecraft, there is plenty of air, so they just talk normally. When they are spacewalking, they talk by means of radios in their helmets. The radio waves, again, have no problem in space, but they're not sound. They're radio, which has to be converted into sound by the astronauts' headsets.
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