Sure, the universe is big. If you travel far enough, there is bound to be a planet with water and maybe breathable air. You might have to travel a few million years, though. And keep in mind that plants produced the oxygen here on earth by photosynthesis. So I’m not sure about how that’d happen on other planets. Maybe they can have oxygen for other physics reasons. Maybe they already have life on them. It’s difficult to quantify the statistical chance for that. But the universe is a big place.
If you question is if we can go there, the anwer is most certainly: No.
If we had the technology to terraform another planet, it would be far easier to just fix the climate on this planet. People like Elon Musk who are peddling this idea of terraforming Mars for habitation are charlatans.
To be fair, we know how to raise the temperature on a planet, but have never successfully lowered it
While I agree Earth first. But just like most humans you are underestimating our level of risk. There is a very legitimate reason to have a goal of not putting all our eggs in one planet. That’s just a much more long term goal than our climate issues, but we shouldn’t stop trying to progress our technology for that end.
I agree that redundancy is a good way to mitigate risk, but there are so many problems between us and successfully colonizing another world that this is basically a pipe dream.
Astronauts experience a lot of health issues.
After less than a month in space, the tubules that fine-tune calcium and salt balance showed signs of shrinkage, which the researchers say was likely due to microgravity rather than GCR.
The study suggests that optic disc edema and choroidal folding contribute to spaceflight-associated neuro-ocular syndrome, whose symptoms include headaches and visual impairment such as far-sightedness (hyperopia), which causes near objects to appear blurred due to lower visual acuity at short range.
The scientists said the heart tissues “really don’t fare well in space,” and over time, the tissues aboard the space station beat about half as strong as tissues from the same source kept on Earth. […] Previous studies showed that some astronauts return to Earth from outer space with age-related conditions, including reduced heart muscle function and arrhythmias (irregular heartbeats), and that some, but not all, effects dissipate over time after their return.
And of course there’s all the problems caused by radiation exposure once you’re outside the Earth’s magnetic field (Mars doesn’t have a global magnetic field). Basically, we can put ourselves in a tin can and venture into space, but the human body evolved in Earth’s gravity and radiation profile and it doesn’t do well outside of that. At the present you’d have to be suicidal to try to live long-term away from Earth, and I don’t think these are problems that we can just engineer our way out of.
None of those problems get solved if you use the enormity of the task to excuse giving up. Everyone working on these projects is well aware of these issues. It does not devalue the work. But do not confuse my support of continuing towards the goal with support for goofballs like Elon Musk.
If we had listened to people like you during the infancy of the US space program we would have deprived the world of a lot of technological progress.
We set sail on this new sea because there is new knowledge to be gained, and new rights to be won, and they must be won and used for the progress of all people. For space science, like nuclear science and all technology, has no conscience of its own. Whether it will become a force for good or ill depends on man, and only if the United States occupies a position of pre-eminence can we help decide whether this new ocean will be a sea of peace or a new terrifying theater of war. I do not say that we should or will go unprotected against the hostile misuse of space any more than we go unprotected against the hostile use of land or sea, but I do say that space can be explored and mastered without feeding the fires of war, without repeating the mistakes that man has made in extending his writ around this globe of ours. There is no strife, no prejudice, no national conflict in outer space as yet. Its hazards are hostile to us all. Its conquest deserves the best of all mankind, and its opportunity for peaceful cooperation may never come again. But why, some say, the Moon? Why choose this as our goal? And they may well ask, why climb the highest mountain? Why, 35 years ago, fly the Atlantic? Why does Rice play Texas? We choose to go to the Moon. We choose to go to the Moon… We choose to go to the Moon in this decade and do the other things, not because they are easy, but because they are hard; because that goal will serve to organize and measure the best of our energies and skills, because that challenge is one that we are willing to accept, one we are unwilling to postpone, and one we intend to win, and the others, too.
True, but colonizing other planets is more distant a goal than making our own stable.
We will not accomplish any of this. Because we don’t even care for the biosphere of the planet we already have in the best state of “terrafoming” ever.
Humankind will speedily regress to much lower levels of organisation and technology soon. It’s inevitable.
No
Earth is the only one. Even if we knew another planet humankind won’t be able to get there.
“Have?”
If by “we” you mean humans, we only “have” one planet. And it’s habitable for now.
Aside from Earth, we have found some that might have liquid water, an oxygen-rich atmosphere, a relatively-close-to-Earth gravitational acceleration on its surface. But there’s no real likelihood that we’ll ever be able to get to any of those… like… ever. And I’d think probably even those would require some teraforming to be habitable.
I wish people would realize that terraforming is the only way we’re going to colonize other planets.
Sci-fi showed us landing on Earth-like planets and making a new home. Reality will show us dying in a completely alien biosphere as bacteria and viruses we have zero resistance against ravages our bodies the moment we’re exposed to it. And we’d expose the new biosphere to pathogens it has zero resistance to.
We might be able to adapt by living in a protected environment (i.e. our biosphere) and slowly exposing generations of our descendants to the new biosphere. But many, many of us would die in the process. Not to mention genetic mutations.
So… short answer is no, if you mean a self sufficient, self sustaining colony that could reasonably continue in perpetuity.
We just do not have the technology to pull that off at a basic level. Even with the best currently existing proposals, it would be massively, absurdly expensive, as well as dangerous, and far, far too many things could go wrong.
Now if you mean a non self sustaining colony, one that gets frequently resupplied, offers the option to go back home… then we have the Moon.
Despite what Elon thinks, Mars is not a realistic option for anything other than conducting a sadistic experiment.
If you mean … exoplanets? And just assume we have a warp drive to get colonists there?
Unless I am mistaken, there are a few that could possibly harbor some kind of life, but almost certainly not us.
I don’t think we even have a rudimentary atmospheric composition estimate for any of the exo’s that are in the Goldilocks zone, if any of them at all.
There is no planet B.
Earth is the only place that could sustain human life.
We have not found any other bodies with the basic composition, atmosphere or temperature to have even the remote potential for sustaining life, even with the most extravagantly optimistic technology and unlimited resources to apply it.
Nix, nada, no dice.
We are not getting off this rock - and if we fuck it up, we’re done.
Habitable.
Habital isn’t a word.
To answer your question, “no.” We have one and we’re already on it. It’s called Earth.
Define “have”. Know about? In our own solar system?
And under what conditions? Like, walking around on the surface? Living in some kind of underground chamber?
There’s nothing in our solar system where you can just hop out and roam around on the surface like you would on Earth and survive. The atmosphere alone doesn’t make it doable.
But there are attempts to find planets outside the solar system that might be habitable:
https://en.wikipedia.org/wiki/List_of_potentially_habitable_exoplanets
Problem is that interstellar travel takes a lot of doing. The furthest a human has gone as of 2024 is just beyond the Moon. We haven’t even gone to another planet in our solar system. And traveling to even the closest star system is a lot further away.
The Moon is about 1.3 light seconds away.
We get within about 3 light-minutes of Mars at its closest approach.
https://en.wikipedia.org/wiki/List_of_nearest_stars
Alpha Centauri, our closest neighboring star system, is about 4.2 light-years away.
So traveling to planets in other solar systems isn’t something that’s probably going to happen in the immediate future. Even if one of these possibilities ultimately does turn out to be habitable, it’s not within our near-term reach. We can see, but we cannot easily touch.
We can create a habitable base on the Moon or Mars. But it’d only be habitable conditions inside the base itself.
Terraforming Mars or Venus might be possible.
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Assuming a pressurized station, most any will do. Mars in particular will be great.
Mars actually isn’t that great.
Should we colonise Venus instead of Mars
At a certain altitude on Venus, you’d “only” need a an oxygen mask and skin protection from acid.
