I really think that the great filter (of the fermi paradox) is behind us. Meaning, some stupefying rare event happened either when (i) life began in the first place, or when (ii) we evolved into advanced technological species.
For (i) I remember watching a documentary by Brian Cox which explained it quite well (can't find the video anymore). Essentially it was about how all species branch from DNA. The fact that there's only DNA, and not other types of life constructs spread around our earth (heck not even 1), would make the beginning of life (abiogenesis) a very rare event.
For (ii) it is an obvious rare event because out of the billions of species that ever existed on earth, we're the only ones to have developed technological intelligence. This "characteristic" evolved only once on earth - where life is prolific -, hence by no means a certain development of evolution.
- Technological life exists for a few thousand years. They are a small blip so basically nothing in terms of cosmic timelines.
- Even if it sends out probes, those probes generally fall into the gravity wells of the planets they are sent to over the millions of years.
- Hence why intelligent life is common, but not often seen.
One thing to do, and we should do it fast... is to make self replicating robotic probes that spread throughout the galaxy. I guess it should collect samples of life once it finds it and find ways to seed the universe with it. Or create some sort of Ark of Life to carry DNA from intelligent life forms to other places where they could perhaps be cloned.
We should not focus on our own survival, but increasing the chances of intelligent life in general to survive in the universe and find each other. We are probably doomed as a species, but we can do that for the universe.
- Even if it sends out probes, those probes generally fall into the gravity wells of the planets they are sent to over the millions of years.
But then wouldn't we have possibly observed these probes? Maybe they have visited our planet, just so long ago such that any evidence of their arrival has decayed...
Metal decays fast enough, but not only that the Earth's crust moves and most of the planet is water. It's like looking for a small piece of metal that was here say 10 million years ago, is very rusted and probably at the bottom of the ocean. And even if they send probes, it's not as if they or we send a million of them. We send a few, and they are expensive, and they are easily lost.
Why would any self-respecting interstellar civilisation build probes out of metal? It's expensive, heavy, doesn't breed very well, and doesn't last.
A true interstellar self-replicating probe is going to look like a fat molecule. Hell, they could be here already; panspermia is still a totally valid theory.
I can only imagine this going horribly wrong. Like when Explorers visited cultures which had been isolated from the rest of the world, not having developed antibodies against a simple flue and getting infected.
> One thing to do, and we should do it fast... is to make self replicating robotic probes that spread throughout the galaxy. I guess it should collect samples of life once it finds it and find ways to seed the universe with it.
This looks like a bad idea because is a planet has life and the probe seeds it with the life of the other planet, you may kill all the native population.
Anyway, the probes we send will have a few bacteria as free riders, so we will seed them with Earth bacterial life anyway.
There are some protocols to clean the probes that go to Mars (and other planets), so if find life there it will be Mars' life. (But this is very difficult, I think that bacteria are very sneaky and they probably will win.)
it might have all these things, but if you don't have ftl then they take a very long time to get to their destination. tens of thousands to millions of years. There are a few planets between 4 and 42 light years from here. At 4 light years using a Nuclear pulse propulsion it would take 100 years. At 40 it would take 10x that, so 1,000 years. That's nuclear which requires a immense amount of fuel which probably does not make sense for satellites. Other mechanisms for prop. are much slower. By the time any of these get to their destination, people who built them will be dead and possibly the civilizations which have launched them will have gone extinct.
Isn't it technically twice... the Neanderthals? whom possibly would have gone onto further technological advancements had we not out competed them for resources?
These observations don't discount the possibility that life is incredibly pervasive throughout the universe, yet on each planet that harbours life it is natural that just one species reaches dominances to make observation about Life, The Universe, and Everything, such as we are making... but are still ultimately prevented from becoming Type III civilisations by physical constraints (i.e. interstellar flight is impossible) and therefore the Great Filter lies before us.
Neanderthals are our cousins. Meaning it's essentially a species in the same genus tree (very closely related to us). Characteristics which are "not rare" are found across species in various branches in the tree - think of vision or smell, etc. I do agree however that we might be the first - hell there was a first species that developed vision so why not think we might be the first who have developed tech. intelligence.
There is evidence of tool use dating back 2 million+ years. Those species are grouped under genus Homo and would likely have been ancestors of both modern humans and Neanderthals.
We are so special, the only intelligent species in the galaxy etc reminds me of the sun revolves around earth statement a few hundred years ago, the fact is we don't have the technology to explore even the closest stars, even our own solar system is unexplored, think europa, so making statements about life in the universe based only on one planet is science fiction.
I agree completely. While we are definitely making progress, it is early days yet and we're still taking baby steps around the playpen of Earth. We haven't even toddled next door to our neighbor, Mars.
That said, it means there are lots and lots of exciting missions to look forward to as our technological abilities grow.
I tend to believe that molecular technology and AI are the great filter. Just picture the situation we find ourselves in: We are stuff made from the rules of the pattern generating system that we call our universe. We are figuring out the rules and we are continuously improving our tools to manipulate stuff at an ever lower level. Once we can easily manipulate the building blocks our existence is based on, it opens the door to such a tremendously large number of ways how things can go wrong that the probability of self-destruction comes very close to 1. It would require an extremely high intelligence to deal with all these failure modes, something that an biochemistry-based evolutionary process is highly unlikely to bring forth. The problem is basically that figuring the rules out is much easier than using them safely. The invention of AI makes our tools to manipulate matter vastly more dangerous, for example, intelligent gray goo would be smart enough to not immediately eat away its basis for existence and to plan ahead instead of just executing a simple rule set.
That DNA gains dominance proves very little. It stands to reason that in the primordial soup, once one self-replicating molecular biology came into existence it pretty quickly consumed all the elements any others would need.
Moreover, life on Earth proves little about the nature of life anywhere else - for example what type of self-replicating biology might exist in the high pressure environment of a gas giant? We don't know, but all the components are there and there's plenty of energy so why not?
The reason Earth-like's are interesting is because we know what we're looking for when we go looking for life on them. They're a sure thing to expend limited resources on.
That the current thinking and evidence on abiogenesis says that this all happened very very early in the earths history would lead me to believe that abiogenesis is probably quite common. The existence of only DNA based life forms, given we now have good evidence that other chemical elements could have become the bases of dna (as opted to g c t and a) would also tend to indicate that it was probably just the 'winner' of that early evolutionary arms race, i.e. What chemical formula can reproduce the fastest under those early conditions
I think it's likely that higher intelligence could evolve more often were it not a "first past the post" race where whichever species gets there first prevents the others from doing so by squeezing them out with regard to the necessary natural resources.
Thus, I'm inclined to think that if there are many planets with the required ingredients for life, there could likewise be many examples where intelligent life has arisen, but like on Earth, limited to one advanced species per planet.
Well, for (i), we wouldn't necessarily see any of the other life systems if DNA life outcompeted it. Bear in mind that we've only really explored a handful of Earth's ecosystems --- it's known that the microbial biosphere extends way into the lithosphere, for example. I'd be totally unsurprised (although thrilled) to learn of a discovery of an alternate life system there.
For (ii), remember that we can't observe any other Earth-like planets in enough detail to know whether there's human-like technological life there or not; all we really know is that we haven't observed any here, and there are plenty of simple explanations why not, one of the most plausible being that transporting human-like creatures from one star system to another in a reasonable time is almost inconceivably hard.
In fact, life like ours is so unsuited for living in space that it's probably reasonable to assume that any successful space-based civilisation isn't going to be using life like ours.
That assumption leads to some interesting corrolaries: for example, once you're adapted to living way out in the dark, the inner solar system is going to be horribly inhospitable. And you're likely to be quite slow, because everything's going to take a long time.
So if such a civilisation existed on the outskirts of Sol system, it would be entirely plausible that they wouldn't come and visit --- coming here is too dangerous, and besides, if we're going to be interesting to talk to we'll be rebuilding ourselves to be like them and be out there soon...
The problem is we don't know a lot about the probabilities of abiogenesis. We do know the basic components for life, such as complex hydrocarbons and amino acids, do occur in non-biological nature. The question is how likely they are to combine into something self-replicating.
> Essentially it was about how all species branch from DNA
That is not correct. Most models consider RNA as a precursor to DNA. Over time, RNA has come to fulfill more narrow intra-cellular roles, but at some point in time it was probably the dominant gene format. By the same token, it's likely that RNA as an information carrier was preceded by other molecules, and very early proto-organisms might not even have had a unified gene carrier system - they might have been just "running systems" that split in two every once in a while.
> (ii) we evolved into advanced technological species.
This is also doubtful. Humans do combine several fortunate intellectual capabilities, but the components making up our neuronal structure are not unique to us. What's more, we do find advanced capabilities in organisms that developed after we split from a common ancestor, suggesting that the building blocks of general intelligence might arise readily under different circumstances and using different biological implementations (albeit with the caveat that we share a common biochemical machinery, the details of which may or may not make general intelligence more likely).
At least one thing I'm optimistic about is that by observing other semi-intelligent species, we can see that social behavior and cooperation is one of the driving forces of intelligence. There are different moralities, cruel to ours, but overall this implies to me a common ability to cooperate and explore, among any evolved civilizations.
Interesting argument I saw recently: assume, as many physicists think, that inflation/string theory is correct and there are a very large number of universes, which vary in their physical parameters.
Not all universes will be suitable for life. Of those that are, a large majority will be just barely suitable, so life is just probable enough that it arises once in the universe. A much smaller number of universes will make life so probable that it arises lots of times.
Therefore it's very likely that our little planet has the only life in our universe.
Intelligent life is rare on Earth. Out of tens of millions of species on our planet that exist or have existed, only one is intelligent enough to make a civilization.
Missions like Kepler are what finally set me against human space flight. Consider the incredible amount of science coming out of projects like this ($600M), New Horizons (750M) or the Planck telescope ($750M), compared to the cost of the international space station (~$100B).
For less than the cost of a Shuttle launch, you can get scientific breakthrough after breakthrough, as long as you're not trying to keep primates alive on the thing.
Whoa there. First off, don't use the Shuttle or ISS as the yard stick for "manned spaceflight", they are some of the most expensive programs for the least results in history and are not representative of what can be done with manned spaceflight.
Additionally, spaceflight is not just about scientific research. Manned spaceflight is not just about exploration, it's also about colonization. At the end of the day space is just a place, a place where we live, though we have been restricted to a tiny corner of it for most of human history. We can do manned spaceflight cost effectively (orders of magnitude better than the Shuttle, ISS, or Apollo), and as our technology improves our capabilities will only increase while costs fall.
> Compared to colonizing Antarctica, for example, or the bottom of the sea?
Why not both? The bottom of the sea is as unexplored as space, creating self-sufficient habitats in both places poses similar technological challenges. I for one would love to see more deep submersion research.
As for "what is the purpose", are you asking for "a purpose" or "a commercial purpose"? Because most of the time I see this question the person asking usually means the latter, and that is IMO a very, very limited view of the world. Not everything worthwhile makes commercial sense, and not everything that makes commercial sense is worthwhile.
"It will be difficult enough to avoid disaster on planet earth in the next 100 years, let alone the next 1000 or million. The human race shouldn't have all its eggs in one basket or on one planet. Getting a portion of the human race permanently off the planet is imperative for our future as a species."
- Stephen Hawking
Yet we have no idea how to build a self-sustaining colony of human beings anywhere other than planet earth. And even here it does not seem to be the case that we are self-sustaining, hence the need to leave the planet in the first place.
A much better statement should be we need to create a self-sustaining civilization here on Earth at any cost. Don't take it easy, it's no longer business as usual.
I don't think Hawking's primary concern was in the self-sustaining sense, rather with the more immediate threats as in the 'asteroid/epidemic/natural disaster' sense.
Hawking believes humanity needs to figure out space colonization ASAP.
Well then what would be the point? Any thing that can cut off the life support mechanism of the Earth to the Astronauts or the colony, would mean their survival was no longer guaranteed.
I assume in his quote when he means "Getting a portion of the human race permanently...", he means resource independence from Earth, which would be the point.
I don't think non-human-created disasters are that much of a threat to civilization in the 100/1000 year time scales, so I don't think that's what is meant.
I don't think so, simply because of the way he phrases it and the timeline. There's no way Hawking would predict such a huge natural disaster in the next 1000 years, let alone in the next 100 years with such certainty. I think it's clear he's talking about man-made disasters which have already been set in play (like global warming, overpopulation, war, etc.).
I'm not convinced at all that we can turn things around. Most likely scenario is that we will just keep growing, there will be a massive die-off at some point, and then the remaining humans will ensure survival of the species.
The Deutsche Bank is already predicting peak population [0] by 2055 so maybe a mass grow isn't as likely as it seems as industrializing nations lower birth rates.
Although the UN is predicting continued growth until 2100. It would be pretty amazing if we stopped expanding in 2025.
We can grow ten times the food inside that we currently do outside. We can grow it faster, with far greater quality, and with a fraction of the water we use now. And that's before we get into really advanced crop engineering, which is inevitable in the next few decades.
Nuclear power can easily solve our energy problems as desired. If it comes down to it, and there are no other options, they'll turn back to nuclear power. Most likely the radical acceleration of solar will solve half of our energy problem all by itself.
I see no reason why a die-off would occur due to population growth.
I don't believe the population will stop growing, ever. I also don't believe that we will forever be able to break through resource walls with our technology. Maybe it takes 10000 years and a population of 500 billion, I just think that's the most likely scenario.
We're much less likely to develop that technology if we don't try. Automobiles in 1900 weren't terribly capable to what we have today, but because they were made use of then we've had over a century of improvements on them.
Just like a house is good enough until it burns down. Not every house burns down but a lot of them do. It would be nice to have another one, just in case.
Living on the ocean floor is infinitely cheaper and more feasible than living in space, is definitely safer, and protects you from all the potential dangers of being a one-planet species.
Huge asteroid? Just dive into a deep trench. Gamma ray burst? You'll barely detect any radiation under a few meters of water. War? The ocean's a big place and you can hide somewhere and weather a war that might last centuries.
The argument that we need space exploration so humanity doesn't go extinct is a ridiculous last-ditch effort to save people's sci-fi fantasies.
You evacuate people in a big submarine, if you have to. It might not even be necessary, if the impact site is sufficiently far away or the settlement is deep enough.
But this is all a moot point, any realistic asteroid that threatens this planet can be blown to smithereens and will probably be spotted unless it's coming perpendicular to the ecliptic.
*citation needed for both being able to blow up an asteroid adequately, and to have a high probability to spot them. At least from my childhood on discovery channel, both are nearly impossible (With respect to seeing the asteroid, it would be too late to make a difference)
Usually, at this point someone links to some NDT interview with Jon Stewart or something where he says "but if you blow up an asteroid, the chunks will still hit you".
Yes, well, if you blow up an asteroid the ratio of surface area to volume will change, and a greater percentage of the asteroid's mass will be
I think it will be easier to convince 10,000 people to live on the moon/mars then to convince 10,000 people to live their lives surrounding pure darkness on the ocean floor.
I think you are grossly under estimating the challenge of living under the ocean. There have been a number of underwater habitats built (both for science and nominally living quarters) so there are reports you can read on the experience.
In particular a 'huge asteroid' could not be mitigated by "diving into a trench", water is incompressible by nature and the impact of an asteroid in the ocean would cause a huge over-pressure event in your habitats, where ever they are, resulting in their destruction. Today, such an impact would destroy every submarine in the same ocean where it hit.
Gamma rays would be fine, water does make an excellent radiation blocker. That could be achieved on land by building a structure that was inside the middle of a water reservoir. (imagine a large water storage tank with underwater living space in the middle of it.)
>I think you are grossly under estimating the challenge of living under the ocean. There have been a number of underwater habitats built (both for science and nominally living quarters) so there are reports you can read on the experience.
I didn't mean to talk about it as if it were a commonplace thing, but compared to settlements on other worlds, it is. I'm not sure what the state of the art is, though as I recall the navy had some habitats in the 70's that they stopped reporting on, so either they closed them down or there's some secret underwater laboratory Deus Ex-style somewhere.
>In particular a 'huge asteroid' could not be mitigated by "diving into a trench", water is incompressible by nature and the impact of an asteroid in the ocean would cause a huge over-pressure event in your habitats, where ever they are, resulting in their destruction. Today, such an impact would destroy every submarine in the same ocean where it hit.
Well, yes, that is true for submarines. But an undersea settlement would most likely be anchored to the ocean floor and have access to it, mostly for mining, geomethermal power and storage, but you could use it as a shelter in case the main habitat is destroyed.
>Gamma rays would be fine, water does make an excellent radiation blocker. That could be achieved on land by building a structure that was inside the middle of a water reservoir. (imagine a large water storage tank with underwater living space in the middle of it.)
The ocean has the advantage that it's a single massive body of water, so it's harder to boil all of it off.
Honestly, I'm not sure our species deserves a future if we lay waste to an entire planet and make it uninhabitable for ourselves (something which we seem to have already set in motion). What's to stop us from doing so to any other planet we colonize? Or, more pertinently, what's the point of preserving the human race if the only outcome is planetary destruction?
I'm not trying to be dreary, but I do think Hawking is completely wrong on this point, not to mention its feasibility in the next 100 years.
I am also sure we do not really deserve it, but we also can't stop our own urge for self preservation which is fundamental to every species. So we can't really stop it anyway, but we as a species might eliminate ourselves before any meanigful progress on space colonization can be made, for better or worse. The universe certainly wouldn't care.
True. I just think there's more we can do here on Earth for this purpose. Yes, some problems are inevitable, but as a whole species we haven't yet done anything to destroy all life.
I mean, I'm also appalled by what we're doing on this one, but say we all decide to curl up and die, saving countless planets from our interference. Who's going to care? Universe will go on, and so far there's no evidence that there are other beings like us, who could reflect on themselves and the state of the world they live in.
We may not be the centre of the universe, but it is still ours for the taking, we're the only Player Characters around. There's no point in making honourable self-sacrifice when there won't be anyone to appreciate it.
I used to find hope in this idea of going to another planet, so if we nuke one planet we're still okay as a species. But heck, if our species is inclined to wage destructive war on ourselves, we're probably going to do it a second time. We'd have to colonize a lot of planets to find the rare group of humans who would not resort to destructive power struggles.
I'm not yet convinced that we're going to destroy ourselves, but it wouldn't surprise me to find that self-destruction is in our nature.
To put some numbers on it, if humanity has a 25% chance of destroying itself within 1000 years of discovering nuclear power, how many planets do we need to colonize to have a reasonable chance of surviving another 10,000 years? (survival = no catastrophic nuclear event, survival != a subset of humans barely making it in a post-apocalyptic world)
We'll never be on two planets in any meaningful way. Antarctica is a paradise compared to everywhere else, and nobody wants to live in Antarctica. There is no other place for us in the Solar System.
Antarctica is not colonization. You are not allowed to own land or start a business on Antarctica. For human settlement on Mars to succeed, Mars must not become Antarctica. The first few missions will be government owned and the crew will be as independent as military personnel, but actual settlement will be done by people legally and economically free to colonize.
If technology progresses but international treaties don't change, then hundreds of years from now this will be exactly correct. Robert Zubrin is not completely insane.
I am all for space colonization but i realize it's a fundamentally egocentric thing to wish for. It's not really what nature intended. We have eleminated many other species and at some point in time the same fate will probably await us.
Nature intended for me to die of starvation within weeks of being born due to a congenital disorder preventing me from digesting anything. I'd wager that nature probably didn't intend for you to have 20/20 eyesight, or to have all of your teeth, or for you to type on a magic glowing box that allows you to communicate with people halfway around the planet.
Is self-preservation egotistic? Probably. An asteroid similar to the dinosaur extinction event could hit us at anytime, with a few hours notice. You'd think the human race would learn from the dinosaurs?
Imagine another asteroid hits Earth, humanity becomes extinct, and a new sentient species evolves after 200 million years. This species will dig up human and dinosaur bones. Reminds me of: "Fool me once, shame on you; fool me twice, shame on me."
Nature didn't intend anything. There's no such thing as an integrated, thinking, conscious entity called nature that intends some distant outcome.
An example that makes the point: nature intends for us to spread to every habitable planet in the galaxy. Nature wants humanity to dominate.
There is also no such thing as fate. Humans aren't fated to a pre-set outcome. If I step on a spider, that doesn't mean bad karma is going to have a tornado rip my house apart. If some humans cause the extinction of some species, that doesn't mean the human race is going to be wiped out.
Depends how you look at it. Our bodies are built to live on parts of this planet in this specific era. We don't do so well in space and microgravity. We're not going to do so well on Mars, or Mercury or Triton. That's never going to change.
Judging by the history of this planet, if nature intends anything it's for life to spread into every niche imaginable. Colonizing the solar system is just more of the same, and if we do it right we'll bring lots of other species along with us.
Antarctica is a terrible example. First of all, settlement of antarctica is illegal. It's all claimed and off limits by treaty. We don't know if anyone would settle it if it were open. Secondly, there is a qualitative difference between another planet and another place on this one.
We will, it just might not happen for thousands of years.
Once we have the ability to freeze our bodies in stasis to wake at intervals and check progress, time taken to travel huge distances may become meaningless. Set probe for x light years away, program the alarm for arrival. Of course, communication with anyone not travelling with you becomes a bit meaningless.
Obviously a huge deal of progress to be made in terms of energy and replication, maintenance, etc.
We're a bunch of stupid animals on average, but I wouldn't bet against the best of us making this sort of thing happen eventually. "Never" is a very definite thing to say!
10,000 years is long time in a freezer. I throw even hamburger away after a year or so.
The only way I see it happening is a multi-generational trip. Or sending some raw material with instructions and a platform to reconstruct DNA and grow out some embryos. Or we modify ourselves genetically to the point it isn't the current hominid species making the trip.
Unless of course we find some sort of shortcut through space time. But it's all far fetched science fiction of course.
Your freezer isn't that cold and doesn't freeze all that quickly.
Raw material sent for construction is more likely, but I do like the idea of an individual being frozen enabling them to live almost as long as they wish and travel almost any distance.
>Once we have the ability to freeze our bodies in stasis to wake at intervals and check progress
A better approach is to send self-building/self-replicating droids, with human DNA or hard-drive saved consciousness. Let AI deal with the hazards of navigating interstellar space and building up a colony before 'birthing' humans. No freezing necessary (just a waste of resources)
Indeed, Kepler covers only 0.25% of the sky, and is only capable of detecting systems that are edge-on (around 0.47% probability for Earth-like planets)[1].
The mind boggles at what we might discover with a more complete picture...
Well, it shouldn't boggle the mind too much, because 0.25% of the sky translates to factor of about 400 of what the Kepler mission has achieved. Multiply all the numbers of the mission by about 400.
I was thinking more along the lines of: instead of daydreaming about planets > 1000 ly away, we might find a system nearby that we can study in detail...
$100 billion is still a drop in the bucket when compared to iur own federal budget, let alone the budgets of all the participating countries in the ISS. It is also a showcase as to how we can survive the depths of space if we ever need to migrate off this planet.
$100bn is not a "drop in the bucket"; it's more than the Department of Education, something like 3x what we spend on housing, and actually a pretty sizeable chunk of the discretionary military budget.
Can anyone recommend documentaries or non-fiction shows that explore the what-ifs of finding other earth-like planets?
In the previous thread on the discovery of this other Earth, an HNer commented that since the other Earth is older, they could have sent probes over which would have filmed the dinosaurs in HD, and that maybe we could request that data from them. Here's another related thought https://news.ycombinator.com/item?id=9937353
Here's another what-if, in the form of a sci-fi film called Another Earth (a personal drama wrapped around the idea of a twin Earth) https://www.youtube.com/watch?v=N8hEwMMDtFY
This is such a bad analogy (I think you got it from Neil Tyson or something). What you've done is that you've taken examples of things that we got wrong. However, there's a lot more things we got right back then, that are still right nowadays!
So your point that whenever we make predictions, we get them wrong, is totally unfounded.
> (I think you got it from Neil Tyson or something)
Lol no, I haven't actually watched any stuff from him, I'm more of a Brian Cox guy.
My point wasn't "whenever we make predictions we get them wrong", it was that our accepted model of our universe is always in a state of flux - new revelations come about every so often that totally change this model. Hopefully the next revelation is that there is in fact a lot of life in the universe and we aren't alone.
And as for the "Earth is a special unique snowflake -> no, there are 1B "Earths", while actual confirmation of the existence and number of exoplanets is a recent development, the shift for general population was made long ago, thanks to science fiction literature and later cinema.
Precisely why I am so exited about exploration of Europa and Titan and others in our solar system. Imagine if we find life beneath the surface just in our system, then the probability of finding life outside our system would be much higher.
I think is incredibly fascinating research , but to me it seems extremely unlikely we as a species will ever leave earth.
Maybe we build some sentient AI who will be the next step in intelligence and colonise space but the distances and hostily of space, as well as our total dependence on the rest of the ecosystem on earth makes me think having a plan B for humanity outside earth is a just a folly.
I used to work at SpaceX. I firmly believe that Elon Musk will establish a colony on Mars within my lifetime, and I hope to be there. Everything SpaceX does is working towards that conclusion, and the plan is solid.
No. Rockets are more or less intercontinental missiles that are being used for benign purposes, so there are severe restrictions imposed from the government on the employment of foreigners by SpaceX.
Cool. I think SpaceX is doing incredible work and am positive we will see a manned journey to Mars within our lifetime. But a sustainable colony? Sorry but I don't see it happening.
The earth is a paradise, life depends on so many fundamentals which are missing from Mars, as well as an intricate network of trillions of interactions in the ecosystem which took hundreds of millions of years to form. I think we are deluded if we think we can replicate that
We can replicate that on a small scale. I don't think we'll see Mars terraformed any time soon, but a sustainable colony is possible for sure. Mars is rich in water and we can bring our own plants and animals.
It's not like you'd be alone. Plans are to have a thousand people or more. This isn't an amateur effort, you know. You're viewing this scenario through a pessimist's lens and you won't be convinced otherwise.
The enlightenment was a period of greatly increased scientific imagination. They probably thought how great it would be once we reached the moon one day.
I agree - we won't make it. We are rapidly improving our means to kill each other and become extinct while space colonization is neglected. It's obvious where this will lead.
How tragic, that even if humanity were to receive signal from another intelligent species, we couldn't even close to possibly reach them with current technology. Intelligent species watch each other rise and fall from afar.
Actually with time dilation the people on the spacecraft could reach several close stars in decades - if we construct fast enough spacecrafts (just needs to be a small fraction of light of speed).
It would be a pretty great endeavour. We'd have to carry enough fuel to accelerate and decelerate at the end, and enough fuel to push that fuel, etc., etc. (Unless Bussard drives work.)
I wonder if anyone's written that story - a relativistic vehicle is headed towards the Earth, launched by a civilization that could get it up to speed but not decelerate, trusting and hoping that our technology is advanced to slow them down on arrival...
theres 500 stars in a radius of 50 light years. hopefully we will find plantes there, a planet 1400 ly away is cool but very distant still if we want to study it in detail
Let's assume the Great Filter is in front of us. Perhaps biological life eventually creates machine life and then either withers away while machines take over, or fizzles out along the machines it made. Let's also assume that all these other lifeforms, like us, realize that the galaxy is full of livable worlds. There's no FTL, and nobody wants to take over a planet where life has a chance of making it past the filter.
This would mean that the only contact would be machine probes who left their civilizations tens of thousands of years into the past. Such probes would be programmed not to initiate contact with worlds with life on them. Instead, collect some data and leave, moving on to other planets and systems.
If this is the case, heck, we might have been visited by millions of other intelligent civilizations. The only thing we'd have to show for it would be perhaps the appearance of truly mysterious lights in the sky every decade or so. If you want to stretch your imagination a bit, perhaps a Rendlesham Forest-type incident.
I seriously doubt biological life is very interesting to any other civilizations. I doubt they communicate in any way similar to the ways we communicate, and I feel that any direct contact would be so removed and non-reproducible to be useless.
There are a lot of hidden assumptions you have to make for Fermi's Paradox to truly be a paradox. (Same goes for my argument, of course.)
The largest assumption you made is that biological life evolves the same on every earth-like planet...and that all life from those planets fits our definition of biological.
One of the things I love about good sci-fi is that it challenges these assumptions. I'll throw one out there as an example many would know: the crystalline entity in Star Trek TNG.
At what point do we consider that at least some percentage of the more credible and interesting UFO sightings might be evidence of visitation?
We now know with a high level of certainty that earth like worlds are common, and we also know that a high percentage are older than Earth. That means more time for the evolution of intelligence and the growth of knowledge in any civilization. Interstellar flight is hard, but is technically possible with technology contemporary with The Beatles: look up Project Orion and read about Dyson's thermonuclear performance estimates... And if that is possible with 60s tech, there are surely better ways. Of course we are also assuming no undiscovered physics, which is an arrogant and naive assumption given that we haven't been doing this for very long.
The UFO topic is verboten largely because of all the bizarre and often silly folklore and quasi-religion that surrounds it, but it isn't hard to strip that off. For the longest time I was a climate change skeptic because of a distaste for green ideology, but then I realized that the physics of atmospheric CO2 is utterly unrelated to how humans process issues culturally.
One potential answer to the Fermi paradox is that there isn't one. Life is common, intelligent life is common, and occasionally something stops by. Of course "then why do they not land in the middle of a city?" But turn that around: why would they? It would place both them and us at risk. I can think of many rational reasons not to.
Edit: not arguing it is so, just thst it is possible. The more extrasolar planets in habitable zones we find, the less I think we should laugh.
>At what point do we consider that at least some percentage of the more credible and interesting UFO sightings might be evidence of visitation?
there is an extremely well documented case of a [naively inexperienced] alien observer who went off SOPs trying to help and nudge a species of talking apes through [obvious to higher races] obstacles on the way of the species' progress - i mean Jesus. Well, the apes unfortunately didn't get it ... such attempts are always futile and the more experienced colleagues were trying to explain that to the young observer all the way.
One thing that I have thought about a few times is not just the time scale but also the technological advancement and where we might sit in that continuum. For example, spread spectrum radio technology that is used for some wireless communications would be virtually impossible for us to detect even a couple of decades ago. So even efforts like SETI may not see anything because you would have to focus in on one of the habitable planets, at the moment in time when they are using the type of radio technologies we know of, in the spectrum we are looking at. It is possible that there are technologically advanced civilizations out there but they moved past radio and are using something more advanced like quantum entanglement modulation or something we don't yet have the technology to decode. If there is a Galactic Internet, it is probably not based on the modulation of electromagnetic radiation which is limited to the speed of light.
Exactly, electromagnetism is too primitive. Quantum entanglement modulation is more plausible.
Or some other phenomenon that could factor out space and time like some hypotetical tech that can interface with Consciousness.
Unless we have a huge breakthrough in physics; one in which almost all our previous knowledge is proved wrong, you can't transmit information with quantum entanglement. Doing so violates relativity. Now maybe you can make a wormhole or something, but it seems like EM waves are all we've got.
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[ 3.0 ms ] story [ 181 ms ] threadFor (i) I remember watching a documentary by Brian Cox which explained it quite well (can't find the video anymore). Essentially it was about how all species branch from DNA. The fact that there's only DNA, and not other types of life constructs spread around our earth (heck not even 1), would make the beginning of life (abiogenesis) a very rare event.
For (ii) it is an obvious rare event because out of the billions of species that ever existed on earth, we're the only ones to have developed technological intelligence. This "characteristic" evolved only once on earth - where life is prolific -, hence by no means a certain development of evolution.
- Technological life exists for a few thousand years. They are a small blip so basically nothing in terms of cosmic timelines.
- Even if it sends out probes, those probes generally fall into the gravity wells of the planets they are sent to over the millions of years.
- Hence why intelligent life is common, but not often seen.
One thing to do, and we should do it fast... is to make self replicating robotic probes that spread throughout the galaxy. I guess it should collect samples of life once it finds it and find ways to seed the universe with it. Or create some sort of Ark of Life to carry DNA from intelligent life forms to other places where they could perhaps be cloned.
We should not focus on our own survival, but increasing the chances of intelligent life in general to survive in the universe and find each other. We are probably doomed as a species, but we can do that for the universe.
But then wouldn't we have possibly observed these probes? Maybe they have visited our planet, just so long ago such that any evidence of their arrival has decayed...
A true interstellar self-replicating probe is going to look like a fat molecule. Hell, they could be here already; panspermia is still a totally valid theory.
This looks like a bad idea because is a planet has life and the probe seeds it with the life of the other planet, you may kill all the native population.
Anyway, the probes we send will have a few bacteria as free riders, so we will seed them with Earth bacterial life anyway.
There are some protocols to clean the probes that go to Mars (and other planets), so if find life there it will be Mars' life. (But this is very difficult, I think that bacteria are very sneaky and they probably will win.)
[citation needed]; a civilization wouldn't just shotgun these things and wave farewell, it would have instrumentation, guidance and engines on board.
These observations don't discount the possibility that life is incredibly pervasive throughout the universe, yet on each planet that harbours life it is natural that just one species reaches dominances to make observation about Life, The Universe, and Everything, such as we are making... but are still ultimately prevented from becoming Type III civilisations by physical constraints (i.e. interstellar flight is impossible) and therefore the Great Filter lies before us.
That said, it means there are lots and lots of exciting missions to look forward to as our technological abilities grow.
Moreover, life on Earth proves little about the nature of life anywhere else - for example what type of self-replicating biology might exist in the high pressure environment of a gas giant? We don't know, but all the components are there and there's plenty of energy so why not?
The reason Earth-like's are interesting is because we know what we're looking for when we go looking for life on them. They're a sure thing to expend limited resources on.
Thus, I'm inclined to think that if there are many planets with the required ingredients for life, there could likewise be many examples where intelligent life has arisen, but like on Earth, limited to one advanced species per planet.
For (ii), remember that we can't observe any other Earth-like planets in enough detail to know whether there's human-like technological life there or not; all we really know is that we haven't observed any here, and there are plenty of simple explanations why not, one of the most plausible being that transporting human-like creatures from one star system to another in a reasonable time is almost inconceivably hard.
In fact, life like ours is so unsuited for living in space that it's probably reasonable to assume that any successful space-based civilisation isn't going to be using life like ours.
That assumption leads to some interesting corrolaries: for example, once you're adapted to living way out in the dark, the inner solar system is going to be horribly inhospitable. And you're likely to be quite slow, because everything's going to take a long time.
So if such a civilisation existed on the outskirts of Sol system, it would be entirely plausible that they wouldn't come and visit --- coming here is too dangerous, and besides, if we're going to be interesting to talk to we'll be rebuilding ourselves to be like them and be out there soon...
> Essentially it was about how all species branch from DNA
That is not correct. Most models consider RNA as a precursor to DNA. Over time, RNA has come to fulfill more narrow intra-cellular roles, but at some point in time it was probably the dominant gene format. By the same token, it's likely that RNA as an information carrier was preceded by other molecules, and very early proto-organisms might not even have had a unified gene carrier system - they might have been just "running systems" that split in two every once in a while.
> (ii) we evolved into advanced technological species.
This is also doubtful. Humans do combine several fortunate intellectual capabilities, but the components making up our neuronal structure are not unique to us. What's more, we do find advanced capabilities in organisms that developed after we split from a common ancestor, suggesting that the building blocks of general intelligence might arise readily under different circumstances and using different biological implementations (albeit with the caveat that we share a common biochemical machinery, the details of which may or may not make general intelligence more likely).
Most octopuses are solitary animals, yet probably qualify as semi-intelligent.
Not all universes will be suitable for life. Of those that are, a large majority will be just barely suitable, so life is just probable enough that it arises once in the universe. A much smaller number of universes will make life so probable that it arises lots of times.
Therefore it's very likely that our little planet has the only life in our universe.
For less than the cost of a Shuttle launch, you can get scientific breakthrough after breakthrough, as long as you're not trying to keep primates alive on the thing.
Additionally, spaceflight is not just about scientific research. Manned spaceflight is not just about exploration, it's also about colonization. At the end of the day space is just a place, a place where we live, though we have been restricted to a tiny corner of it for most of human history. We can do manned spaceflight cost effectively (orders of magnitude better than the Shuttle, ISS, or Apollo), and as our technology improves our capabilities will only increase while costs fall.
If we can do human spaceflight orders of magnitude cheaper than all attempts to date, that's great news. But I'll believe it when I see it.
Why not both? The bottom of the sea is as unexplored as space, creating self-sufficient habitats in both places poses similar technological challenges. I for one would love to see more deep submersion research.
As for "what is the purpose", are you asking for "a purpose" or "a commercial purpose"? Because most of the time I see this question the person asking usually means the latter, and that is IMO a very, very limited view of the world. Not everything worthwhile makes commercial sense, and not everything that makes commercial sense is worthwhile.
A much better statement should be we need to create a self-sustaining civilization here on Earth at any cost. Don't take it easy, it's no longer business as usual.
Hawking believes humanity needs to figure out space colonization ASAP.
Although the UN is predicting continued growth until 2100. It would be pretty amazing if we stopped expanding in 2025.
[0] - http://www.cnbc.com/id/101018722
Nuclear power can easily solve our energy problems as desired. If it comes down to it, and there are no other options, they'll turn back to nuclear power. Most likely the radical acceleration of solar will solve half of our energy problem all by itself.
I see no reason why a die-off would occur due to population growth.
'Peak child' has already been reached so I struggle to understand what you don't think peak population will follow.
https://www.youtube.com/watch?v=-Ryd_p20XEU
Huge asteroid? Just dive into a deep trench. Gamma ray burst? You'll barely detect any radiation under a few meters of water. War? The ocean's a big place and you can hide somewhere and weather a war that might last centuries.
The argument that we need space exploration so humanity doesn't go extinct is a ridiculous last-ditch effort to save people's sci-fi fantasies.
How do you move a big settlement into a trench? How do you even move enough submersibles, given little warning?
But this is all a moot point, any realistic asteroid that threatens this planet can be blown to smithereens and will probably be spotted unless it's coming perpendicular to the ecliptic.
Usually, at this point someone links to some NDT interview with Jon Stewart or something where he says "but if you blow up an asteroid, the chunks will still hit you".
Yes, well, if you blow up an asteroid the ratio of surface area to volume will change, and a greater percentage of the asteroid's mass will be
In particular a 'huge asteroid' could not be mitigated by "diving into a trench", water is incompressible by nature and the impact of an asteroid in the ocean would cause a huge over-pressure event in your habitats, where ever they are, resulting in their destruction. Today, such an impact would destroy every submarine in the same ocean where it hit.
Gamma rays would be fine, water does make an excellent radiation blocker. That could be achieved on land by building a structure that was inside the middle of a water reservoir. (imagine a large water storage tank with underwater living space in the middle of it.)
I didn't mean to talk about it as if it were a commonplace thing, but compared to settlements on other worlds, it is. I'm not sure what the state of the art is, though as I recall the navy had some habitats in the 70's that they stopped reporting on, so either they closed them down or there's some secret underwater laboratory Deus Ex-style somewhere.
>In particular a 'huge asteroid' could not be mitigated by "diving into a trench", water is incompressible by nature and the impact of an asteroid in the ocean would cause a huge over-pressure event in your habitats, where ever they are, resulting in their destruction. Today, such an impact would destroy every submarine in the same ocean where it hit.
Well, yes, that is true for submarines. But an undersea settlement would most likely be anchored to the ocean floor and have access to it, mostly for mining, geomethermal power and storage, but you could use it as a shelter in case the main habitat is destroyed.
>Gamma rays would be fine, water does make an excellent radiation blocker. That could be achieved on land by building a structure that was inside the middle of a water reservoir. (imagine a large water storage tank with underwater living space in the middle of it.)
The ocean has the advantage that it's a single massive body of water, so it's harder to boil all of it off.
I'm not trying to be dreary, but I do think Hawking is completely wrong on this point, not to mention its feasibility in the next 100 years.
I mean, I'm also appalled by what we're doing on this one, but say we all decide to curl up and die, saving countless planets from our interference. Who's going to care? Universe will go on, and so far there's no evidence that there are other beings like us, who could reflect on themselves and the state of the world they live in.
We may not be the centre of the universe, but it is still ours for the taking, we're the only Player Characters around. There's no point in making honourable self-sacrifice when there won't be anyone to appreciate it.
I'm not yet convinced that we're going to destroy ourselves, but it wouldn't surprise me to find that self-destruction is in our nature.
To put some numbers on it, if humanity has a 25% chance of destroying itself within 1000 years of discovering nuclear power, how many planets do we need to colonize to have a reasonable chance of surviving another 10,000 years? (survival = no catastrophic nuclear event, survival != a subset of humans barely making it in a post-apocalyptic world)
It's also about inspiring people and radically changing people's worldviews. After all, once we're on two planets, it becomes "best in the worlds".
The implications this has on people's imaginations is non-trivial: https://www.youtube.com/watch?v=CbIZU8cQWXc
We'll never be on two planets in any meaningful way. Antarctica is a paradise compared to everywhere else, and nobody wants to live in Antarctica. There is no other place for us in the Solar System.
If we're not on two planets in any meaningful way, it only takes one big rock to be on zero planets.
Nature intended for me to die of starvation within weeks of being born due to a congenital disorder preventing me from digesting anything. I'd wager that nature probably didn't intend for you to have 20/20 eyesight, or to have all of your teeth, or for you to type on a magic glowing box that allows you to communicate with people halfway around the planet.
Imagine another asteroid hits Earth, humanity becomes extinct, and a new sentient species evolves after 200 million years. This species will dig up human and dinosaur bones. Reminds me of: "Fool me once, shame on you; fool me twice, shame on me."
An example that makes the point: nature intends for us to spread to every habitable planet in the galaxy. Nature wants humanity to dominate.
There is also no such thing as fate. Humans aren't fated to a pre-set outcome. If I step on a spider, that doesn't mean bad karma is going to have a tornado rip my house apart. If some humans cause the extinction of some species, that doesn't mean the human race is going to be wiped out.
Depends how you look at it. Our bodies are built to live on parts of this planet in this specific era. We don't do so well in space and microgravity. We're not going to do so well on Mars, or Mercury or Triton. That's never going to change.
Life spreads. It will eventually jump from planet to planets. Let's hope we're on the right ship.
http://www.cnet.com/news/nasa-wants-to-build-a-floating-city...
Once we have the ability to freeze our bodies in stasis to wake at intervals and check progress, time taken to travel huge distances may become meaningless. Set probe for x light years away, program the alarm for arrival. Of course, communication with anyone not travelling with you becomes a bit meaningless.
Obviously a huge deal of progress to be made in terms of energy and replication, maintenance, etc.
We're a bunch of stupid animals on average, but I wouldn't bet against the best of us making this sort of thing happen eventually. "Never" is a very definite thing to say!
The only way I see it happening is a multi-generational trip. Or sending some raw material with instructions and a platform to reconstruct DNA and grow out some embryos. Or we modify ourselves genetically to the point it isn't the current hominid species making the trip.
Unless of course we find some sort of shortcut through space time. But it's all far fetched science fiction of course.
Raw material sent for construction is more likely, but I do like the idea of an individual being frozen enabling them to live almost as long as they wish and travel almost any distance.
A better approach is to send self-building/self-replicating droids, with human DNA or hard-drive saved consciousness. Let AI deal with the hazards of navigating interstellar space and building up a colony before 'birthing' humans. No freezing necessary (just a waste of resources)
[1] https://en.wikipedia.org/wiki/Kepler_%28spacecraft%29
In the previous thread on the discovery of this other Earth, an HNer commented that since the other Earth is older, they could have sent probes over which would have filmed the dinosaurs in HD, and that maybe we could request that data from them. Here's another related thought https://news.ycombinator.com/item?id=9937353
Here's another what-if, in the form of a sci-fi film called Another Earth (a personal drama wrapped around the idea of a twin Earth) https://www.youtube.com/watch?v=N8hEwMMDtFY
* The world is flat -> no, round
* The sun revolves around the earth -> no, Earth revolves around the sun
* Earth is a special unique snowflake -> no, there are 1B "Earths"
* Life is an incredibly rare event -> no, life is common throughout the galaxy and universe, just not how we thought it would be?
So your point that whenever we make predictions, we get them wrong, is totally unfounded.
Lol no, I haven't actually watched any stuff from him, I'm more of a Brian Cox guy.
My point wasn't "whenever we make predictions we get them wrong", it was that our accepted model of our universe is always in a state of flux - new revelations come about every so often that totally change this model. Hopefully the next revelation is that there is in fact a lot of life in the universe and we aren't alone.
Precisely why I am so exited about exploration of Europa and Titan and others in our solar system. Imagine if we find life beneath the surface just in our system, then the probability of finding life outside our system would be much higher.
Maybe we build some sentient AI who will be the next step in intelligence and colonise space but the distances and hostily of space, as well as our total dependence on the rest of the ecosystem on earth makes me think having a plan B for humanity outside earth is a just a folly.
The earth is a paradise, life depends on so many fundamentals which are missing from Mars, as well as an intricate network of trillions of interactions in the ecosystem which took hundreds of millions of years to form. I think we are deluded if we think we can replicate that
How tragic, that even if humanity were to receive signal from another intelligent species, we couldn't even close to possibly reach them with current technology. Intelligent species watch each other rise and fall from afar.
I wonder if anyone's written that story - a relativistic vehicle is headed towards the Earth, launched by a civilization that could get it up to speed but not decelerate, trusting and hoping that our technology is advanced to slow them down on arrival...
This would mean that the only contact would be machine probes who left their civilizations tens of thousands of years into the past. Such probes would be programmed not to initiate contact with worlds with life on them. Instead, collect some data and leave, moving on to other planets and systems.
If this is the case, heck, we might have been visited by millions of other intelligent civilizations. The only thing we'd have to show for it would be perhaps the appearance of truly mysterious lights in the sky every decade or so. If you want to stretch your imagination a bit, perhaps a Rendlesham Forest-type incident.
I seriously doubt biological life is very interesting to any other civilizations. I doubt they communicate in any way similar to the ways we communicate, and I feel that any direct contact would be so removed and non-reproducible to be useless.
There are a lot of hidden assumptions you have to make for Fermi's Paradox to truly be a paradox. (Same goes for my argument, of course.)
The largest assumption you made is that biological life evolves the same on every earth-like planet...and that all life from those planets fits our definition of biological.
One of the things I love about good sci-fi is that it challenges these assumptions. I'll throw one out there as an example many would know: the crystalline entity in Star Trek TNG.
At what point do we consider that at least some percentage of the more credible and interesting UFO sightings might be evidence of visitation?
We now know with a high level of certainty that earth like worlds are common, and we also know that a high percentage are older than Earth. That means more time for the evolution of intelligence and the growth of knowledge in any civilization. Interstellar flight is hard, but is technically possible with technology contemporary with The Beatles: look up Project Orion and read about Dyson's thermonuclear performance estimates... And if that is possible with 60s tech, there are surely better ways. Of course we are also assuming no undiscovered physics, which is an arrogant and naive assumption given that we haven't been doing this for very long.
The UFO topic is verboten largely because of all the bizarre and often silly folklore and quasi-religion that surrounds it, but it isn't hard to strip that off. For the longest time I was a climate change skeptic because of a distaste for green ideology, but then I realized that the physics of atmospheric CO2 is utterly unrelated to how humans process issues culturally.
One potential answer to the Fermi paradox is that there isn't one. Life is common, intelligent life is common, and occasionally something stops by. Of course "then why do they not land in the middle of a city?" But turn that around: why would they? It would place both them and us at risk. I can think of many rational reasons not to.
Edit: not arguing it is so, just thst it is possible. The more extrasolar planets in habitable zones we find, the less I think we should laugh.
let me do it.
>At what point do we consider that at least some percentage of the more credible and interesting UFO sightings might be evidence of visitation?
there is an extremely well documented case of a [naively inexperienced] alien observer who went off SOPs trying to help and nudge a species of talking apes through [obvious to higher races] obstacles on the way of the species' progress - i mean Jesus. Well, the apes unfortunately didn't get it ... such attempts are always futile and the more experienced colleagues were trying to explain that to the young observer all the way.