B Rough probability that aliens would visit the Earth?

[consuli]

According to a survey in 2017, nearly half of the Americans believe, that aliens visit earth.However, I think that a lot of conditions have to be met, so that aliens would visit earth.

First of all, they have to exist.

Meaning

• their home planet has to be a habitable planet (but only a very low proportion of planets is habitable at all)
• biological life must be created out of dead chemical elements (like from the elements C, H, N and O on earth)
• their home planet must stay habitable over millions of years

Second, they must find earth
Meaning

• Among a lot electromagnetic backround noise they must pick up one of our electrmagnetic signals
• And they have to search a very very huge universe for us
• And if they find a signal from us, it would be maybe already millions of years old, and we may not exist any more

Third, they must travel to us
Meaning

• They must be capable to travel somewhat light-years to us
• They must be willing to do such exertion journey

Every bullet point mentioned above is already pretty unprobable. When assuming a probability of 1% for each of the eight bullet points above, that would compute a total probability of

1% ^ 8

= 0.01 ^8

= 1 E -16

= 1 / 10^16

Do you agree, roughly?

 

[unusually_wrong]

For a race of beings capable of traveling light years, I'm certain they would have the technology to make them selves unknown to us (regardless of our attempts). I also question why they would want to visit or even observe an inferior race of beings. Michio Kaku said: “Imagine walking down a country road, and meeting an ant hill. Do we go down to the ants and say, ‘I bring you trinkets. I bring you beads. I give you nuclear energy and biotechnology. Take me to your leader?’ Or we have the urge to step on a few of them??” which adds further to the question of "why".

 

[russ_watters]

This is a variation of the Drake equation:
https://en.m.wikipedia.org/wiki/Drake_equation

 

[diogenesNY]

My gut reaction, for largely physics based reasons is that for the five bullet points from the second and third categories, the likelihood of any of them being viable would be infinitesimal or less. This leaves as undefined the likelihood of a suitably intelligent race of aliens.

Our radio/EM signature would be indistinguishable from noise, not too far out, no matter how you calculate it.

Such a search would have to have something identifiable worth detecting... This would likely necessitate live scouts or at least robot ships. See above for why remote searching is unlikely.

Physics, as we understand it, likely rules out actual FTL travel. The issues and difficulties (and relative costs, even if possible) with a sub-C journey (as has been time and again discussed near-exhaustively on PF) largely preclude even a 'shortish' range, highly directed exploratory mission, even if there was someone to make it.

&c, &c...

diogenesNY

 

[BWV]

given that there has been plenty of time for space-faring aliens to have colonized the entire galaxy traveling at sub-light speeds, the question is why have we not seen any sign of extraterrestrial life? (the Fermi Paradox)

 

[Al_]

Ball park probability - between 0 and 1. There are so many unknowns.

why have we not seen any sign of extraterrestrial life? (the Fermi Paradox)

I can only conclude that living in space is a lot harder than we think. And don't forget that many of the worlds that could harbour life have stronger and deeper gravitaional fields, as well as thicker and deeper atmospheres, which might effectively rule out ever leaving their planet.
If Earth was much smaller it could not have hosted complex life at all, so we might be in a very sweet spot amongst all the variables.

 

[cosmik debris]

Ball park probability - between 0 and 1. There are so many unknowns.I can only conclude that living in space is a lot harder than we think. And don't forget that many of the worlds that could harbour life have stronger and deeper gravitaional fields, as well as thicker and deeper atmospheres, which might effectively rule out ever leaving their planet.
If Earth was much smaller it could not have hosted complex life at all, so we might be in a very sweet spot amongst all the variables.

Earth rockets are somewhere between 85 and 92% fuel, if Earth were a little larger we couldn't leave with a chemical rocket.

Cheers

 

[Nik_2213]

"Earth rockets are somewhere between 85 and 92% fuel, if Earth were a little larger we couldn't leave with a chemical rocket."

More stages ?
Or air-breathing jet / rocket combo such as the Sabre that 'Reaction Engines Ltd' have designed ?
If your atmosphere is significantly denser, perhaps a 'Rockoon' option opens...

 

[phinds]

Do you agree, roughly?

No. I think you vastly overestimate the odds of some of those things happening and leave out other significant ones and end up with a probability that is way too high.

 

[nikkkom]

> their home planet has to be a habitable planet (but only a very low proportion of planets is habitable at all)

Why do you think so? We now know that planetary systems are common. So the "very low" above might be actually something like "one in 50 stars has a habitable planet".

> biological life must be created out of dead chemical elements (like from the elements C, H, N and O on earth)

Happened on Earth pretty much "immediately" after it cooled down enough.

> their home planet must stay habitable over millions of years

It is quite usual for planets to have surface conditions stable.

> Among a lot electromagnetic backround noise they must pick up one of our electrmagnetic signals
> And they have to search a very very huge universe for us
> And if they find a signal from us, it would be maybe already millions of years old, and we may not exist any more

Yes, the detection is hard. However, aliens may simply visit _every_ solar system as their civilization expands.

> They must be capable to travel somewhat light-years to us
> They must be willing to do such exertion journey

Do you think that if we would have the means to organize an expedition to Alpha Centauri, we would hesitate to do so??

> Every bullet point mentioned above is already pretty unprobable.

No, not all of them. Some are rather high probability, see above.
One step which might be very improbable which you missed is the appearance of *intelligent* species, not just life, on the planet of the aliens.

 

[consuli]

This is a variation of the Drake equation:
https://en.m.wikipedia.org/wiki/Drake_equation

Indeed, it is a variation of the Drake equation. However, the Drake equation ends up with the total number of possible intelligent llife forms in the universe. But the total number - let's just assume 5 here to show the problem - of possible intelligent life forms in the very huge universe, can be easily misinterpreted as - 5 - chances that we would meet them, which would the opposit of the truth.

> Every bullet point mentioned above is already pretty unprobable.

No, not all of them. Some are rather high probability, see above.
One step which might be very improbable which you missed is the appearance of *intelligent* species, not just life, on the planet of the aliens.

No. I think you vastly overestimate the odds of some of those things happening and leave out other significant ones and end up with a probability that is way too high.

I guess, the very low proportion of habitable planets is the main probability driver, here. Even if there would be intelligent life somewhere in the very very huge universe, they would be so many light years away, that they could not detect us and neither could they travel to us.

To visualize this widely accepted assumption, one should calculate an average distance of possible alien live, given the very low proportion of habitable planets (from all planets) and the density of planets in the universe.

Consuli

 

[BWV]

This is all a wel trod area of speculation, but several possibilities have not been mentioned yet. One pessimistic possibility is that intelligent species tend to destroy themselves through warfare or environmental destruction so none survive to launch interstellar probes (again thin distances really don’t matter because a starfaring civilization could colonize the whole galaxy either in person or with Von Neumann probes in a few million years and the galaxy is old enough for this to have happened)

The Wikipedia article is a good summary

https://en.m.wikipedia.org/wiki/Fermi_paradox

 

[nikkkom]

Even if there would be intelligent life somewhere in the very very huge universe, they would be so many light years away, that they could not detect us and neither could they travel to us.

This is likely to be NOT the limiting factor in "meeting the aliens" - it's probability is not low.

Expansionism is a common trait of life in general - it is evolutionary selected. Expansionist species are less likely to go extinct.
Similarly, expansionist societal "ideology" is similarly selected - it is more likely to survive than a secluded sedentary society.

Aliens don't even need to be expansionist as a whole - it's enough for just one branch of their first few interstellar colonies to adopt a worldview where expanding deemed important. If they do this, their civilization is likely to start expanding at close to their maximum interstellar travel speed.

It's not a given (I'm not saying probability of this happening to interstellar-capable civilization is ~1), but it's likely: probability is somewhere in 10%-90% territory.

And unless they have *ridiculously awesome* interstellar drives, large interstellar "hops" would be still hard for them. It's likely they will prefer smaller ones. This means that they will not just travel to the selected "best" systems hundreds of light-years distant from one another - they will hop to nearest ones. This means almost every stellar system will be visited within the expanding "ball" of colonized space. This means they will visit Earth as soon as this expanding "ball" reaches Earth. No search is necessary.

 

[russ_watters]

Indeed, it is a variation of the Drake equation. However, the Drake equation ends up with the total number of possible intelligent llife forms in the universe. But the total number - let's just assume 5 here to show the problem - of possible intelligent life forms in the very huge universe, can be easily misinterpreted as - 5 - chances that we would meet them, which would the opposit of the truth.

Right, so what one would need to do is add or modify the terms to incorporate the desired constraints.

 

[russ_watters]

given that there has been plenty of time for space-faring aliens to have colonized the entire galaxy traveling at sub-light speeds, the question is why have we not seen any sign of extraterrestrial life? (the Fermi Paradox)

I've never been very impressed by the Fermi Paradox. It has strained premises and slipped and stretched steps of logic.

E.G., the mere fact that we could traverse the galaxy in a million years at 10% of the speed of light is just math unconnected to reality. Perhaps Fermi assumed that such a trip would be both easy and desirable? There's no good reason to believe either would necessarily be true.

IMO, the Drake equation and its variants are much more informative, useful and connected to reality.

 

[BWV]

I've never been very impressed by the Fermi Paradox. It has strained premises and slipped and stretched steps of logic.

E.G., the mere fact that we could traverse the galaxy in a million years at 10% of the speed of light is just math unconnected to reality. Perhaps Fermi assumed that such a trip would be both easy and desirable? There's no good reason to believe either would necessarily be true.

IMO, the Drake equation and its variants are much more informative, useful and connected to reality.

But there are no such assumptions - it’s a framework around the proposition that conservative inputs to the Drake equation give a large number of potential intelligent alien civilizations and the galaxy is old enough for these to have spread throughout the galaxy. IF interstellar travel was feasible (again does not have to be in person, could be self-replicating Von Neumann probes or some other automated method) then we should have some sign of being visited OR be able to see some sign of these cultures outside our solar system (or galaxy even)

 

[nikkkom]

... OR be able to see some sign of these cultures outside our solar system (or galaxy even)

What signs would you expect to be visible if Andromeda would be undergoing large-scale colonization?

 

[russ_watters]

But there are no such assumptions - it’s a framework around the proposition that conservative inputs...

Inputs=assumptions.

And maybe I'm being overly harsh in having the benefit of an additional 50+ years of history and technological development, but:

... IF interstellar travel was feasible..

...calling it an "if" doesn't soften the fact that when you insert it into an equation or line of logic you have assumed it to be true. And not for nothing, but my read of the history is that they really did believe it at the time. And this is why I say maybe I'm being overly harsh: the idea was developed from about 1950-1975, which probably not coincidentally overlaps the Space Race. I think there really were people who really did believe that after 1972 (the last moon landing), the next stop was Mars and after that, the stars. But the reality of the next 45 years is we have done nothing but go backwards, both for manned and unmanned spaceflight.

 

[BWV]

What signs would you expect to be visible if Andromeda would be undergoing large-scale colonization?

Me personally? I have no clue - but scientists have thought about it:
http://www.sci-news.com/astronomy/science-kardashev-type-iii-civilizations-03249.html

 

[BWV]

Inputs=assumptions.

And maybe I'm being overly harsh in having the benefit of an additional 50+ years of history and technological development, but:

...calling it an "if" doesn't soften the fact that when you insert it into an equation or line of logic you have assumed it to be true. And not for nothing, but my read of the history is that they really did believe it at the time. And this is why I say maybe I'm being overly harsh: the idea was developed from about 1950-1975, which probably not coincidentally overlaps the Space Race. I think there really were people who really did believe that after 1972 (the last moon landing), the next stop was Mars and after that, the stars. But the reality of the next 45 years is we have done nothing but go backwards, both for manned and unmanned spaceflight.

you have just posited one possible solution to the paradox, but it still remains the framework for this problem. Interstellar travel does not seem to me much of a leap for a K level 2 civilization as they would have all the energy and materials of their solar system at their disposal for the attempt - for example they could produce as much antimatter as they needed for fuel or build large enough lasers to propel craft with light sails.

 

[nikkkom]

you have just posited one possible solution to the paradox, but it still remains the framework for this problem. Interstellar travel does not seem to me much of a leap for a K level 2 civilization as they would have all the energy and materials of their solar system.

Just because you have a name for a type of imagined civilization, it does not mean such civilizations are definitely possible.

 

[BWV]

Just because you have a name for a type of imagined civilization, it does not mean such civilizations are definitely possible.

the phrase ‘definitely possible’ is without meaning as we are all talking about possibilities and their logical implications if true

Are you saying that a K2 civilization is ‘definitely impossible’ ? - as that is the only antonym to the phrase and implies a level of certainty that no one possesses. Plenty of scientists have thought that K2 or K3 level civilizations are possible, but we will never know for certain until we either find one or become one

it does not seem that great of leap to think that barring some catastrophe, humans could reach that level

 

[nikkkom]

Are you saying that a K2 civilization is ‘definitely impossible’?

I am saying that it might be impossible.

Moreover, I don't think that merely having access to the full extent of star system's resources/energy necessarily leads to creation of immense devices processing/emitting all this energy at one installation.

For example, cumulative US electrical power output is ~1000 GW, but we did not find any use for even a "measly" one gigawatt continuous wave laser. If anything, recent advances of our technology lie mostly not in larger and more powerful devices, but in more efficient, more precise and/or smaller devices.

IOW: "K2 civilization" may be unobservable on intergalactic distances, even if it cumulatively does process a lot of energy.

 

[consuli]

E.G., the mere fact that we could traverse the galaxy in a million years at 10% of the speed of light is just math unconnected to reality.

Exactly. A collision at 10% light speed with a small grain of sand would cause an (nuclear) explosion, roughly equal big than the one from the asteroid, that had wiped out the dinosaurs from earth.

Thus, traveling light-year ranges will be a very tough one, even if the evolution of those aliens would be ten times faster than ours (which would be another too optimistic assumption).

Consuli

 

[russ_watters]

you have just posited one possible solution to the paradox, but it still remains the framework for this problem.

No.

I know it isn't your fault (you didn't develop it), but by calling it a paradox in need of a solution - the framework for this problem - we assume it is a properly formed line of logic, with accurate inputs, that points to an actual problem with reality (opposite purpose from the Twins Paradox). Instead, it is much more likely to simply be just an improperly formed line of logic. So rather than treating it as an already proven valid conclusion:

We should see aliens here already.

...it should be formulated as a question:

Should we see aliens here already?

That way it doesn't seem like as big of a deal to refine it: I'm not looking for a "resolution" to a known paradox but instead simply refining a known faulty assumption or line of logic. And this is why the presentation of the Drake equation is better IMO: It's readily acknowledged that none of the inputs are certain and are undergoing constant refinement. It's a question, not a claim. There is no established conclusion to be the basis of a "paradox".

So no, I don't agree that we should consider the Fermi Paradox to be a useful "framework for this problem". The "framework" the OP provided is much better, and it's his thread, so we should follow his lead.

Interstellar travel does not seem to me much of a leap for a K level 2...

No.

@nikkkom put it succinctly, but I will expand:

I think you are using that backwards (opposite of the logic issue discussed above). I don't think it was intended to be a statement that Kardashev believes such civilizations were realistically possible (I haven't seen the orginal background of his work), but rather positing if they were possible, asking what would they look like. So it can't be used as an input to the Fermi Paradox/Drake Equation: given our current knowledge it is not reasonable to assume such things are realistically possible for the purpose of this discussion.

[mod hat]
Also, in general, please, let's keep this thread confined to known reality and realistic/reasonable speculation. It's a problem in the astronomy forum we are working to correct. And what is reasonable speculation? Per the discussion in the thread: It is reasonable to speculate we could land people on Mars in a decade or two. It is not reasonable to assume that we will develop a method for traveling at 10% of the speed of light, cheaply, in the next decade or two (or fifty).

The assumption "interstellar travel is realistically possible" is not supportable by current knowledge of science. It may not be used as a basis for a line of logic about reality here. Further discussion of it may be deleted. [/mod hat]

 

[russ_watters]

Plenty of scientists have thought that K2 or K3 level civilizations are possible...

Caveat to my previous post: if you can provide a reference to a respectable scientist who has said they believe interstellar travel is realistically possible - not just theoretically possible - then it may be used as part of this discussion (as in anput to the problem/equation).

 

[nikkkom]

Exactly. A collision at 10% light speed with a small grain of sand would cause an (nuclear) explosion, roughly equal big than the one from the asteroid, that had wiped out the dinosaurs from earth.

Wrong. Grain of sand would be a rock up to ~2mm in size, or ~0.025gram in mass. At 10% light speed its energy would be ~3 tons of TNT (edit: was 2 tons, but 3 seems to be closer).

 

[BWV]

Caveat to my previous post: if you can provide a reference to a respectable scientist who has said they believe interstellar travel is realistically possible - not just theoretically possible - then it may be used as part of this discussion (as in anput to the problem/equation).

if that is the standard then you have been remiss in your mod responsibilities by letting this thread continue. The OP question was the probability of aliens visiting earth. We do not currently know of any realistic method of interstellar travel - if that is the criteria then there is no discussion - we might as well be talking about time travel and you should close the thread.

However the question implies what a technological civilization that has existed for thousands or millions of years might be able to accomplish - no one has a clue about this, just what our current knowledge of science allows or disallows as theoretically possible. The Fermi Paradox is the established framework for thinking about these possibilities

 

[cosmik debris]

"Earth rockets are somewhere between 85 and 92% fuel, if Earth were a little larger we couldn't leave with a chemical rocket."

More stages ?
Or air-breathing jet / rocket combo such as the Sabre that 'Reaction Engines Ltd' have designed ?
If your atmosphere is significantly denser, perhaps a 'Rockoon' option opens...

The basic rocket equations show that there is not enough energy in chemical fuels to lift a payload greater than around 15% of the total mass of the rocket, regardless of how you go about it. Separate stages are used because the engines of the later stages have nozzle designs that are a better match for the higher atmosphere increasing the efficiency. There are nozzle designs called aero spike engines which work in all atmospheric conditions alleviating the need for some stages.

You could build something in orbit I guess, or as you say some combination of other lift mechanisms to gain altitude. Imagine the size of a balloon or something required to lift something like the final stages of the Saturn 5 in order to get to the moon, possible I suppose but difficult.

Cheers

 

[consuli]

Wrong. Grain of sand would be a rock up to ~2mm in size, or ~0.025gram in mass. At 10% light speed its energy would be ~3 tons of TNT (edit: was 2 tons, but 3 seems to be closer).

Sorry, I have taken some zeros to much, over the thumb. However, 3 tons of TNT will be a pretty big damage for a space ship, right?

However the question implies what a technological civilization that has existed for thousands or millions of years might be able to accomplish - no one has a clue about this, just what our current knowledge of science allows or disallows as theoretically possible. The Fermi Paradox is the established framework for thinking about these possibilities

However, the assumption that such an million years old and technologically almighty civilization would exist at all, is very optimistic. Especially it is all based on the szenario, that aliens would have significantly better conditions than we have.

But on Earth the Chicxulub-asteriod, that wiped out the dinosaurs, had exactly the perfect size. If it would have been smaller, the dominant species on Earth would be dinosaurs and birds, now (not humans). If it would have been bigger, the whole atmosphere would have collapsed. Thus, the size of the Chicxulub-asteriod had been a perfect lucky event, to speed up the evolution on earth.

So, it is pretty probable, we on Earth had the perfect conditions and alien life on other planets has much more worse conditions!

And still the maximum capacity of the planet Earth for human living will be reached soon, and we have no clue at all, how we can get to next habitable planet!

It is much more probable, our civilization will end in a big war one day, when the ressources of Earth are going to end. (Maybe this depressing prospect is the reason, why we like to think about an almighty alien species, that will save us one day, so much. )

Consuli

 

[BWV]

However, the assumption that such an million years old and technologically almighty civilization would exist at all, is very optimistic. Especially it is all based on the szenario, that aliens would have significantly better conditions than we have.

But on Earth the Chicxulub-asteriod, that wiped out the dinosaurs, had exactly the perfect size. If it would have been smaller, the dominant species on Earth would be dinosaurs and birds, now (not humans). If it would have been bigger, the whole atmosphere would have collapsed. Thus, the size of the Chicxulub-asteriod had been a perfect lucky event, to speed up the evolution on earth.

So, it is pretty probable, we on Earth had the perfect conditions and alien life on other planets has much more worse conditions!

And still the maximum capacity of the planet Earth for human living will be reached soon, and we have no clue at all, how we can get to next habitable planet!

It is much more probable, our civilization will end in a big war one day, when the ressources of Earth are going to end. (Maybe this depressing prospect is the reason, why we like to think about an almighty alien species, that will save us one day, so much. )

Consuli

Yes those are two of the many possible answers to the Fermi Paradox - the evolution of intelligent life is extremely rare and / or short lived. The counter argument is that are over 100 billion stars in our galaxy so even very low probabilities give large numbers of intelligent civilizations when you plug them into the Drake equation.

Also if the Chicxulub asteroid had missed Earth (or whatever else caused the K-Pg extinction event- the asteroid causation is not universally accepted), it does not preclude some other intelligent life evolving 100s of millions of years later, maybe after some other extinction event - the K-Pg event was not the only mass extinction and no where near the most severe. If Earth is any indication, it does seem that intelligence offers an unassailable evolutionary advantage

 

[consuli]

Yes those are two of the many possible answers to the Fermi Paradox - the evolution of intelligent life is extremely rare and / or short lived.

Also if the Chicxulub asteroid had missed Earth it does not preclude some other intelligent life evolving 100s of millions of years later.

It is does not exclude, that there would be an intelligent dinosaur species now. However, I really doubt, it would be as efficient as the humans regarding to the "intelligence by body weight index".

A large body consumes a lot of energy and needs more resources. Thus from my point of view the "intelligence by body weight index" determines, if a species might succeed in "island hopping" to the the next habitable planet, before the resources of their original planet will be exhausted (if light speed travel would be physically possible at all).

(Travelling to the next habitable planet, does not say about traveling between galaxies, which would be necessary for an alien to visit earth.)

Consuli

 

[Flatland]

For a race of beings capable of traveling light years, I'm certain they would have the technology to make them selves unknown to us (regardless of our attempts). I also question why they would want to visit or even observe an inferior race of beings. Michio Kaku said: “Imagine walking down a country road, and meeting an ant hill. Do we go down to the ants and say, ‘I bring you trinkets. I bring you beads. I give you nuclear energy and biotechnology. Take me to your leader?’ Or we have the urge to step on a few of them??” which adds further to the question of "why".

We have entire professions dedicated to studying ants. And we would probably talk to them if we could.

 

[nikkkom]

those are two of the many possible answers to the Fermi Paradox - the evolution of intelligent life is extremely rare and / or short lived. The counter argument is that are over 100 billion stars in our galaxy so even very low probabilities give large numbers of intelligent civilizations when you plug them into the Drake equation.

It's best to not assume anything about VERY_SMALL_NUM * VERY_LARGE_NUM before you can have estimates of how small/large they are. At least within an order of magnitude would be good.

10^-10 * 10^11 = 10, but 10^-15 * 10^11 = 0.0001

Both 10^-10 and 10^-15 are "very small probabilities", but former results in a galaxy having several civilizations, while the latter is much smaller and leads to ~0.01% of chance of having even a single sentient life form in a galaxy.

 

[BWV]

It's best to not assume anything about VERY_SMALL_NUM * VERY_LARGE_NUM before you can have estimates of how small/large they are. At least within an order of magnitude would be good.

10^-10 * 10^11 = 10, but 10^-15 * 10^11 = 0.0001

Both 10^-10 and 10^-15 are "very small probabilities", but former results in a galaxy having several civilizations, while the latter is much smaller and leads to ~0.01% of chance of having even a single sentient life form in a galaxy.

Yes, that is one of the optimistic possibilities. A more pessimistic one is that technological civilizations are common but do not last long enough to develop advanced space travel

 

[consuli]

A more pessimistic one is that technological civilizations are common but do not last long enough to develop advanced space travel

In case of us "advanced space travel" means bridging 4.2 light years to Proxima Centaur.
Anglada-Escudé, Guillem; et. al. (2016). "A terrestrial planet candidate in a temperate orbit around Proxima Centauri". Nature. 536 (7617): 437–440. arXiv:1609.03449. Bibcode:2016Natur.536..437A. doi:10.1038/nature19106. PMID 27558064.

And aliens in the milkyway have comparable distances to the next habitable planet.

How much time do we have still left, to create such an advanced space travel technology, before Earth will be overcrowded and get sunk in war for resources? 200 years?

Consuli

 

[stefan r]

... It is not reasonable to assume that we will develop a method for traveling at 10% of the speed of light, cheaply, in the next decade or two (or fifty).

The assumption "interstellar travel is realistically possible" is not supportable by current knowledge of science. It may not be used as a basis for a line of logic about reality here. Further discussion of it may be deleted. [/mod hat]

The speed capabilities does not work as an argument against "interstellar travel is realistically possible". We have demonstrated rockets capable of 10^-4c. We do not need to prove that faster propulsion is possible. We only need to prove that intelligent life can survive for 10,000 years in space. There are a large number of scientists who consider life in space a possibility.

On NASA forums you can dismiss ideas for projects that would take 10,000 years or even 100 years. Physics is far more open. The floor of the Pacific ocean is sinking down the Marianas trench and the Atlantic sea floor is expanding. This is not useful information to an engineers or economists planning logistics of shipping lanes. Mentioning it during a discussion of TPP agreement would be rash. The continental drift rate is useful information for a paleontologist trying to explain why bones are located (or not located) at a particular dig site. Sea floor spreading is fast enough to be relevant to evolutionary theory over continental distances. Known, demonstrated rockets are easily fast enough to be relevant over interstellar distances. You could even limit the aliens to mechanical mechanism (slingshots catapult etc) and gravity assists.

The Milky Ways disc has been around for more than an order of magnitude longer than the travel time needed to colonize all of it using just the motion of the stars.

And unless they have *ridiculously awesome* interstellar drives, large interstellar "hops" would be still hard for them. It's likely they will prefer smaller ones. This means that they will not just travel to the selected "best" systems hundreds of light-years distant from one another - they will hop to nearest ones. This means almost every stellar system will be visited within the expanding "ball" of colonized space. This means they will visit Earth as soon as this expanding "ball" reaches Earth. No search is necessary.

I am not convinced by your argument. Alpha Centauri and Sirius have a huge advantage for interstellar travel. They can use the stars for gravity assist. If you have limited Delta-v capabilities but high impulse you would have a very strong incentive to go to Sirius and skip other nearby stars. Trying to slow down using Jupiter gives much less Oberth effect and is more difficult than what you could get using Sirius b. If using light sails Alpha Centuari might be competitive with Sirius. They are much better targets than the Sun.

Wikipedia says there are more than 25,000,000 asteroids in the belt larger than 100m diameter. Of that some 10% are metallic. Alien artifacts could be carbonaceous, silicate, and could be shaped like an average asteroid. For a thought experiment suppose that we place 10,000 20th century school buses in the asteroid belt. I am not suggesting that aliens have school buses or that they parked anything in the belt. I just want to know which telescopes would find one if there was a fleet of school busses. The thought experiment changes if you park them in the belt 1 million years ago. The paint is also a factor. New yellow buses should be much easier to detect than unpainted or dented/chipped buses. The buses should collect some of the same dust that collects on metal asteroids. Still, the question is "who in 2018 has the capability of finding one" and proving that it is similar to a bus?

... It's likely they will prefer smaller ones...

I do not believe that is true. You certainly did not provide supporting evidence. It is commonly assumed in science fiction.
If we assume that it is true then you gave a reason why the aliens are not observed in our solar system. There are many small stars to select from.

...Plenty of scientists have thought that K2 or K3 level civilizations are possible, but we will never know for certain until we either find one or become one

it does not seem that great of leap to think that barring some catastrophe, humans could reach that level

My car has a 15 gallon gas tank. If I was given a raise I would not upgrade to a 30 gallon tank. If I was given a $million or $billion I would still drive a sedan with a 15 gallon tank. Driving an tanker truck is not an improvement in my quality of life. Commuting further (or burning gas in place) is also not an improvement in my quality of life. A civilization is likely to increase energy consumption only if there is something that they gain by increasing their consumption. There needs to be some reason why they would struggle to use a larger fraction of the available luminosity.

The infrared flux around Alpha Centauri is between 10⁷ and 10⁸ times the current energy output of human civilization (i.e. 10^-5 solar flux, 4 x 10²¹ watt). Of course dust is the most likely explanation for that. Even if some of the radiation was from an alien industry dust is still the most likely explanation for most of the zodiacal light. Many of our civilized activities generate dust.

If 10¹⁹ watts is good enough to power a civilization capable of interstellar travel then most sun-like stars have more than enough infrared signature to mask civilized, star faring energy emissions. The small red dwarfs are a few orders of magnitude lower luminosity. That could mean no one is using the small red dwarfs, they use the red dwarfs for some things but not to continue expansion, or that they can expand using less energy. They could go through a temporary spike in energy output while launching ships and then cool off to the currently observed levels. What makes 10¹⁶ watts not enough energy to build and launch an interstellar fleet? If 10¹⁶ is enough energy and a colony ship the size of Texas is big enough then there is no evidence available suggesting that these are not common throughout the Milky Way.

There are good peer review papers discussing the possibility of planets around Alpha Centauri. I recall reading one that constrained the planets to less mass than 3x Jupiter. I am comfortable saying that it is highly unlikely that Jupiter radius space ships are orbiting Alpha Centauri. However, a Jupiter radius spaceship cruising near a Lagrange point orbit would not show up in the image taken by any of our telescopes. If we are uncertain about the presence of an Earth mass planet then we are also very uncertain about the presence of debris, pollution, and/or ruins on the surface of a planet.

 

[consuli]

I think a lot of good points have been made in this lively discussion, I wasn't aware before. I want to thank every partipicipant for his/her good contributions.

What I take out of it, that the rough probility that aliens would visit Earth is pretty low, because an enormous number of conditions have to be all met, that this would happen.

For some kind of interim-summary I take the conditions I mentioned in my intial posting and I add the new conditions you mentioned to them.

Interim-Summary

So far, the following conditions have to be met, that aliens could/ would visit earth:

• There must to be a habitable birth planet for them (but only a very low proportion of planets is habitable at all)
• Biological life (in form of bacteria) must be swapped to their planet
  
• Their birth planet must stay habitable over millions of years
• But at the same time, the living conditions on the planet must be dynamic enough, so that the dominant (less intelligent) species is killed from time to time, so that the evolution race can start again for other newer (more intelligent) variants of the species (so that a sophisticated species is created, that is intelligent enough to understand cosmos and quantum physics, that would allow them to leave their planet, before it gets polluted and/or overcrowded, and/or war conflicts start) [Contributions from BWV]
  
• The habitable birth planet must not be larger than 1.3 Earth masses (otherwise it would not be possible to get to space with chemical fuel rockets and following a lot of important physics experiments in space to conclude from for cosmos and quantum physics would not be possible) [Contributions from Al_, cosmik_debris]
• The first "planet hop", that has to be accomplished to found an interstellar civilization, will be roughly in the range of 4 light years (deducting from our situation; distance Earth - Proxima Centaur)

• Among a lot electromagnetic backround noise they must pick up one of our electrmagnetic signals
• And they have to search a very very huge universe for us
• And if they find a signal from us, it would be maybe already thousands of years old, and we may not exist any more

• Pseudo-light-speed traveling (travelling with a significant proportion of light speed) must be physically possible
• There has to exist a space ship, that can resists particles, that hit the ship with a proportion of light speed; a grain of sand with 10% of light speed would cause a (nuclear) explosion of roughly 3 tons TNT [contributions from nikkkom]

• The aliens must gain a huge benefit to do such a (up to 10'000 years long) exertion journey to us (or must have another very strong motivation to do so) [contributions from usually_wrong, stefan_r]

Consuli

 

[nikkkom]

I do not believe that is true. You certainly did not provide supporting evidence. It is commonly assumed in science fiction.
If we assume that it is true then you gave a reason why the aliens are not observed in our solar system. There are many small stars to select from.

I said "smaller hops", not "smaller stars".

 

[stefan r]

...

• The habitable birth planet must not be larger than 1.3 Earth masses (otherwise it would not be possible to get to space with chemical fuel rockets and following a lot of important physics experiments in space to conclude from for cosmos and quantum physics would not be possible) ...

Nuclear thermal rocket engines were tested by the USA in the 60s. NTRs were never launched but they should work. A small scale Project Orion rocket was launched using dynamite instead of nuclear blasts.

1.3 Earth masses is not a hard number for chemical rockets. The rotation rate and atmospheric thickness is important too. Larger planets are certainly harder to launch off of than smaller planets. With a specific rocket system and the planet's characteristics you can calculate if the payload mass is 0.

...

• The first "planet hop", that has to be accomplished to found an interstellar civilization, will be roughly in the range of 4 light years (deducting from our situation; distance Earth - Proxima Centaur)

Stars are frequently closer than 4 light years. Alpha centuari will be within 3 light years in 25,000 years. Gliese 710 is supposed to come within a quarter of a light year 1,280,000 years from now. Scholz' star came within a lightyear 70,000 years ago. Over a few million years most stars should have encounters much less than a light year. The direction is random.

If you have a specific destination in mind it is not likely that there is an advantage to stopping in route. Stopping a spaceship consumes as much delta-v ( basically fuel) as launching a spaceship.

...

• Among a lot electromagnetic backround noise they must pick up one of our electrmagnetic signals
• And they have to search a very very huge universe for us
• And if they find a signal from us, it would be maybe already thousands of years old, and we may not exist any more

They can detect the ozone layer as Earth transits the Sun. Humans may have this capability when (if?) the James Webb Space Telescope finally launches. Earth could have been an object of interest 2.5 billion years ago when oxygenating bacteria switched the atmosphere. The atmosphere became more extreme 800 million years ago. Plants colonizing land caused a significant change to the appearance of the surface. The beginning of agriculture may also be a recognizable technosigniture.

Launching a bigger telescope is many orders of magnitude easier than launching an interstellar probe. A probe is many orders of magnitude easier than sending an occupied ship. A civilization capable of interstellar travel should have telescopes a million times bigger than James Webb or Hubble. Also if you have a civilization on several stars you may be able to do interferometry with a light years wide base line.

The electromagnetic signals are new to the 20th century. NAZI propaganda from the 1930s is going to be the first thing detectable. It has only traveled ~85 light years. Stars further away have not heard from us yet. Cold war early warning radar is the loudest signal we sent in random directions over a period of time.

...

• Pseudo-light-speed traveling (travelling with a significant proportion of light speed) must be physically possible
• There has to exist a space ship, that can resists particles, that hit the ship with a proportion of light speed; a grain of sand with 10% of light speed would cause a (nuclear) explosion of roughly 3 tons TNT [contributions from nikkkom]

• The aliens must gain a huge benefit to do such a (up to 10'000 years long) exertion journey to us (or must have another very strong motivation to do so) [contributions from usually_wrong, stefan_r]

I believe you are mix and matching ideas and responses. In one scenario you have aliens who recognize something significant about Earth or the Sun and send a mission to investigate or colonize. In another different scenario the aliens are spreading colonies everywhere across the habitable zone of the Milky Way. Our solar system just happens to be located inside the Galaxy that they intend to explore/farm.

10% light speed, 0.1c, is not fast enough for any star to respond after hearing a radio signal except for Proxima, Alpha Centuari, Barnard's, and Luman 16. Wolf 359 and Wise 855-074 are maybes. Sirius would need 0.12c and would need to have had the ship ready to go. The possibility of aliens responding to radio signals with a colony ship is hard to believe. Extremely unlikely, odds close to 0.

Ice age glaciers and other types of weathering can erase evidence of a fairly large research outpost. Equipment dumped on the ocean floor 10 million years ago would be buried under sediment. There are good reasons to leave an ecosystem alone. Earth has very little value to a star-faring species. We currently have no way of measuring how many dwarf planets should be in our solar system. If a few dwarf planets were consumed for reaction mass the solar system would look a lot like what we see now.
The likelihood that migrating aliens appeared right now (last 100 years) is nearly a million times lower than the probability that migrating aliens passed through during the last 100 million years. That does not mean that either are likely. The 10,000+ years per light year is fast enough for a species that started spreading out across the Milky Way. The distance to center is 26,000 light years from the Sun. Some stars are moving faster than 0.001c,1000 years per light year. Barnard's star is 6 light years away and has radial velocity 0.00036c. If they spread out in both the inward and outward directions the galactic rotation would smear them across the entire disc in 200 million years. The Milky Way's thin disc formed over 8 billion years ago. Sun-like stars with Earth-like planets should have started appearing with the thin disc. Earth has been around for 4 billion years before our civilization emerged. That leaves a 4 billion year window for aliens to evolve and start spreading across space. It is also possible that Earth could have evolved intelligence faster (or slower). A 200 million year time span is not very long on the cosmic scale.

 

[newjerseyrunner]

The most obvious question about aliens visiting Earth is... why? Why spend the resources building a huge ship capable of maintaining a crew for a rediculously long and difficult journey when a probe the size of a golf ball could do the job? If you station a small probe on the surface of the moon, it could watch everything humanity does with almost no chance of being discovered.

If order to reach space faring, a species must understand the scientific method. They’d understand that you can’t observe a species naturally if you interact with it, and the most likely reason they would visit would be curiosity.

 

[BWV]

people who do they "relativity crusade" by hasty mindless quashing of anybody who dares to say anything about possibility of faster than light communication will look like retarded morons in less than 30 years from now.

Perhaps no more than you look like a classless twit using language like that. Not sure what the moderation policy is here, but I would not tolerate these pejoratives any more than I would racial slurs.

BTW ‘retarded moron’ is redundant

(Wiki)
Moron is a term once used in psychology and psychiatry to denote mild intellectual disability. The term was closely tied with the American eugenics movement. Once the term became popularized, it fell out of use by the psychological community, as it was used more commonly as an insult

(And the same has happened to the word ‘retarded’

 

[Vanadium 50]

Ah yes..."they laughed at the Wight Brothers". Problem with that argument is they also laughed at the Three Stooges.

 

[berkeman]

Not sure what the moderation policy is here, but I would not tolerate these pejoratives any more than I would racial slurs.

@Prometeus has left the building. That was the sound of the door closing that you just heard.

 

[consuli]

The most obvious question about aliens visiting Earth is... why? Why spend the resources building a huge ship capable of maintaining a crew for a rediculously long and difficult journey when a probe the size of a golf ball could do the job? If you station a small probe on the surface of the moon, it could watch everything humanity does with almost no chance of being discovered.

If order to reach space faring, a species must understand the scientific method. They’d understand that you can’t observe a species naturally if you interact with it, and the most likely reason they would visit would be curiosity.

Because of your very good points

I am changing

• The aliens must gain a huge benefit to do such an (up to 10'000 years long) exertion journey to us (or must have another very strong motivation to do so) [contributions from usually_wrong, stefan_r]

to

• The aliens must gain a huge benefit to do such an (up to 10'000 years long) exertion journey to us (which we, as less developed species cannot provide) [contributions from usually_wrong, stefan_r, newjerseyrunner]
  
• Or they must have another very strong motivation to do an exertion journey, especially as scientists would prefer to send a unmanned remote probe (cheaper and and more exact natural observation without interference [contributions from usually_wrong, stefan_r, newjerseyrunner]
• Thus, only the motivation of curiosity and sensation does remain to do an exertion journey to us [contributions from usually_wrong, stefan_r, newjerseyrunner]

just to aggregate into handy bullet points.

Consuli

 

[bahamagreen]

The Drake and similar estimates put focus on resulting quantity, but with enough time, a very few instances of intelligence emergence, or even one, might achieve unimaginable progress.

We have found 11 billion year old rocky planets.

On our own 4.6 billion year old rocky planet:
- life (replicating molecules subject to selection pressure) emerged after only a half billion years
- multicellular microscopic worms emerged after another three billion years of development
- man emerged after only one more billion years

Note the projection:
replicating molecules to the worm - 3 billion years
the worm to man - 1 billion years
This happening on one of the 11 billion year old rocky planets, they would have had and would continue to maintain a 6.4 billion year head start and lead over us. An intelligence with billions of years of development ahead of us may not be constrained by any of our present of foreseeable limitations. We can't even imagine the form or capabilities of intelligence so advanced*.

* Douglas Adams may have been only half joking when he wrote,"...a Hooloovoo is a super-intelligent shade of the color blue."