How can we create a wormhole in our atmosphere ?
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I know my answer is a little late, but I was just thinking about this question, and found this question here.
Aatif’s answer makes sense to me to a degree; I would think that a wormhole opened up at or near the Earth’s surface would result in Earth’s atmosphere being sucked into the vacuum of space on the other end. However, wouldn’t this wormhole essentially be substituting the previous space next to Earth with space out in the vacuum? If all the wormhole did was introduce this new space, which is no more special than the space it’s taken the place of, wouldn’t the atmosphere pour into the vacuum until Earth’s gravity equalized the pull of matter into the vacuum until there was a cylindrical gaseous body the size of the wormhole and the height of Earth’s atmosphere extending outward through the wormhole?
Basically, the Earth’s pull would still have an effect on the other side of the wormhole, since it’s basically just a window to another region of space. I kind of visualized it as if you were to cut out a sliver of cake, and place it on another plate. The piece of cake remains intact as part of the cake, regardless of its location (I know this example ignores a lot of information that would be relevant, but for simplicities sake just pretend the wormhole is the knife and it’s simply cutting out a sliver of the Earth-Cake and moving it elsewhere).
I’m not saying my idea is more correct. In fact, the more I think about mine, the more questions I have. What would happen to the space not within, but above the wormhole? That space is still there, but would the wormhole block the Earth’s pull of that portion? I would think the massive sphere would have little problem holding onto most of the atmosphere above the wormhole since the space would still be affected by the surrounding gravity not blocked by the wormhole. But then would the opposite be true of the atmosphere in the wormhole? I would think it would be affected by Earth’s gravity directly below it, but would it be a substantially lesser effect since the wormhole is only subjected to the gravity directly below it (assuming gravity could only pass through the wormhole directly through the thin opening).
Aatif’s answer makes sense to me to a degree; I would think that a wormhole opened up at or near the Earth’s surface would result in Earth’s atmosphere being sucked into the vacuum of space on the other end. However, wouldn’t this wormhole essentially be substituting the previous space next to Earth with space out in the vacuum? If all the wormhole did was introduce this new space, which is no more special than the space it’s taken the place of, wouldn’t the atmosphere pour into the vacuum until Earth’s gravity equalized the pull of matter into the vacuum until there was a cylindrical gaseous body the size of the wormhole and the height of Earth’s atmosphere extending outward through the wormhole?
Basically, the Earth’s pull would still have an effect on the other side of the wormhole, since it’s basically just a window to another region of space. I kind of visualized it as if you were to cut out a sliver of cake, and place it on another plate. The piece of cake remains intact as part of the cake, regardless of its location (I know this example ignores a lot of information that would be relevant, but for simplicities sake just pretend the wormhole is the knife and it’s simply cutting out a sliver of the Earth-Cake and moving it elsewhere).
I’m not saying my idea is more correct. In fact, the more I think about mine, the more questions I have. What would happen to the space not within, but above the wormhole? That space is still there, but would the wormhole block the Earth’s pull of that portion? I would think the massive sphere would have little problem holding onto most of the atmosphere above the wormhole since the space would still be affected by the surrounding gravity not blocked by the wormhole. But then would the opposite be true of the atmosphere in the wormhole? I would think it would be affected by Earth’s gravity directly below it, but would it be a substantially lesser effect since the wormhole is only subjected to the gravity directly below it (assuming gravity could only pass through the wormhole directly through the thin opening).
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here your answer but I'm not 101 % sure about it plzz tell that it's right or wrong
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plzz tell its right or wrong, hope it helps you
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