It really isn’t. We know it’s possible, we roughly know how to build one, it’s only our material science that isn’t there yet. But there are promising leads in that direction and with the right investments that problem looks solvable.
With FTL our current science is saying that it’s probably impossible and will never happen. We might be wrong about that, but if we are it’s not going to be cracked anytime soon.
Yes, we have the theory of what is required to build one but every material we have (including graphene and carbon nanotubes) is about 2-3 orders of magnitude below the tensile strength that is required for a space elevator on earth. Add in the fact that the longest graphene and carbon nanotube we can currently produce is in the mm range and we need it to be ~50,000 km and perfect at the atomic level we would be at best decades away from production if they could be used.
Ironically the best place for us to begin is in space.
Building space elevator on the moon is much, much easier (1/6 G and no atmosphere) and Mars is also a much easier proposition than on earth (1/3 G and 1/1000th the atmospheric pressure).
I fully expect that if humans ever build space elevators the first one will not be on earth.
Can we just get on with engineering a space elevator already? We’re going to want one if we’re serious about exploiting resources off planet.
You might as well ask: “Can we just get on with engineering an FTL drive?” as it is about as far beyond our capabilities as a space elevator is.
It really isn’t. We know it’s possible, we roughly know how to build one, it’s only our material science that isn’t there yet. But there are promising leads in that direction and with the right investments that problem looks solvable.
https://youtu.be/lldv_u4R6BU?si=65llxa5uHygOlT3K
With FTL our current science is saying that it’s probably impossible and will never happen. We might be wrong about that, but if we are it’s not going to be cracked anytime soon.
Yes, we have the theory of what is required to build one but every material we have (including graphene and carbon nanotubes) is about 2-3 orders of magnitude below the tensile strength that is required for a space elevator on earth. Add in the fact that the longest graphene and carbon nanotube we can currently produce is in the mm range and we need it to be ~50,000 km and perfect at the atomic level we would be at best decades away from production if they could be used.
Ironically the best place for us to begin is in space.
Building space elevator on the moon is much, much easier (1/6 G and no atmosphere) and Mars is also a much easier proposition than on earth (1/3 G and 1/1000th the atmospheric pressure).
I fully expect that if humans ever build space elevators the first one will not be on earth.
Here is an alternative Piped link(s):
https://piped.video/lldv_u4R6BU?si=65llxa5uHygOlT3K
Piped is a privacy-respecting open-source alternative frontend to YouTube.
I’m open-source; check me out at GitHub.
Well we’re gonna need one of those too might as well get to work
I’m in the middle of an MA in astrophysics…
I don’t know why we have not been working out the kinks on the moon given how achievable its been for that for years.
💰💰💰
It hasn’t been profitable just yet.
Probably never will be.
https://youtu.be/Z5aHMB4Tje4?si=Q1Qe2Muj3wCltWGq
Here is an alternative Piped link(s):
https://piped.video/Z5aHMB4Tje4?si=Q1Qe2Muj3wCltWGq
Piped is a privacy-respecting open-source alternative frontend to YouTube.
I’m open-source; check me out at GitHub.
Sure, if you can find a material strong enough
I also am under the assumption that no material exists that could be stacked tall enough to build a space elevator.