Odds of Finding Alien Life: An Exploration

In summary, the conversation discusses the likelihood of finding alien life and the potential obstacles to intergalactic and interstellar travel. The Fermi paradox is mentioned, which questions why, if there are so many planets capable of supporting life, no intelligent species has visited Earth. The Drake equation is also brought up, which estimates the probability of intelligent life in the Milky Way. Some believe that we may find alien life within the next 100 years, while others argue that the vastness of the universe makes it highly improbable. The conversation also touches on the potential for societal and technological advancements to impact our ability to explore and colonize other planets. Ultimately, the conversation ends with the idea that Earth may have been colonized in the past, but any
  • #36
Wow, I need to check in on these threads more often! All I did was re-state the Fermi Paradox. I noticed that some in this thread were referring to it, so I thought it (or a summary of it) should be included within the thread content. Didn't think it would stir up such a hornet's nest. However, I did make some statements without my usual blizzard of qualifiers, and for that I apologize.

First, some other points that have come up;
N721YG said:
I suspect any confusion was that many think it would take 100,000 years at the speed of light to cross the Milky Way. My intent was to point out it takes much less time. 12 years to cross and I did later add 24 if you want to stop (and live). 12 years, 24 years or 100 years, the point was made.

Although that statement is completely valid, I think that the reference frame of those observers not inside the vehicle is the one most pertinent to the current discussion. The absence of ET's in our backyard is a puzzle that relates to how much time it takes them to get here in our reference frame, not theirs, don't you think?

Arch2008 said:
When the Spanish royalty funded Columbus’ expedition, he didn’t have to create the National Seafaring Administration or hijack German scientists to create the technology for the ships or invent Velcro or Tang. Everything was already in place really and the expense was no more than any other maritime commercial venture of the time. So if Columbus hadn’t done it, then someone else eventually would have. I think that this ‘Columbus Paradigm’ applies to colonizing the universe too.
Eventually, the Earth will no longer provide enough living space for humanity. However, habitats in orbit can use energy from the Sun and resources from asteroids or the Moon to do this. As construction material improves, these self-sustaining habitats could eventually grow to the size of cities with populations of millions. The citizens of these habitats would then comfortably live out their lives in a microcosm. There would eventually be millions of these habitats in orbit around the Sun. Now add a fusion reactor for energy and a sail to anyone of these, and then a solar powered laser could move the habitat to a nearby star at near the speed of light and the inhabitants would barely notice.

Although I see your position, I think it is built on the assumption that outward migration would be driven by necessity, and civilizations would only move on when all local resources are exhausted. I believe this assumption to be false. There is no known example of a life-form that stays where it is until forced to move. AFAIK, all species expand their range whenever they can, not when they have to.
Later in that same post;
...A species that colonizes a galaxy most likely won’t stop there. There are millions of galaxies within migration distance of the Earth, but not one single contact.
So this is my speculation on the Fermi Paradox.
I don't know as I agree with this statement, although it depends entirely on what one considers "within migration distance." The Large and Small Magilanic Clouds are about 200,000 ly away, and aside from them, it's all dwarf galaxies until Bernard's, which is more than a million and a half. To me, this makes traveling around one's own galaxy sound like an entirely different animal from intergalactic travel. A race that has the tech to go star-hopping over distances of 10 to 100 ly is still a long way from having the juice to go a million ly from one galaxy to another.

As for "...no guarantee a civilization would want to colonize the entire galaxy..." I can only repeat that there is no species in existence that does not expand its range whenever possible. According to all availabel data, life continues to spread out until it reaches a barrier it cannot surmount.
 
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  • #37
I was simply showing that every ocean-going vessel in Columbus’ age could make the voyage to the New World and that similarly every space habitat would by design be capable of an interstellar voyage.
I’ve read that there are millions of galaxies within a one billion LY radius of our galaxy. At .1c that would make them within range of migaration if the civilization became spacefaring 10 billion years ago. Just speculating.
 
  • #38
Arch2008 said:
I was simply showing that every ocean-going vessel in Columbus’ age could make the voyage to the New World and that similarly every space habitat would by design be capable of an interstellar voyage.
I’ve read that there are millions of galaxies within a one billion LY radius of our galaxy. At .1c that would make them within range of migaration if the civilization became spacefaring 10 billion years ago. Just speculating.

Columbus' voyage was funded because the European royalty knew they would get results when he returned, in a year or so (my historical knowledge is not amazing, but you get the idea). No communication would even be possible with the home planet for decades, for the nearest stars.
 
  • #39
No instant communication would be necessary. Millions of people living for generations in a habitat community might not even remember their "home world". They would decide to go to the next star system for any number of reasons.
 
  • #40
Arch2008 said:
I was simply showing that every ocean-going vessel in Columbus’ age could make the voyage to the New World and that similarly every space habitat would by design be capable of an interstellar voyage.
The immense differences in scale in cost and time do not justify this false analogy. You assumed a lot of potentially false items:

Arch2008 said:
Eventually, the Earth will no longer provide enough living space for humanity. However, habitats in orbit can use energy from the Sun and resources from asteroids or the Moon to do this. As construction material improves, these self-sustaining habitats could eventually grow to the size of cities with populations of millions. The citizens of these habitats would then comfortably live out their lives in a microcosm. There would eventually be millions of these habitats in orbit around the Sun.
I'll grant you all of this for the sake of argument. Now, first question: Where is the impetus to move on? The sun puts out a lot of energy and the solar system has lots of resources in the form of entire asteroids and lifeless planets to be plundered. Our descendants will have to begin depleting the resources of the solar system before the same kinds of population pressures that forced us to leave the planet make us consider leaving the solar system.

Now add a fusion reactor for energy and a sail to anyone of these, and then a solar powered laser could move the habitat to a nearby star at near the speed of light and the inhabitants would barely notice.
Too much handwaving! How many inhabitants on the vehicle? Do the math. You are talking about an exawatt laser, firing continuously for a long time. Now the vehicle gets to the star. How will it slow down? (The target star is presumably void of civilization and thus does not have an exawatt laser on hand.)
 
  • #41
D H said:
In short, environmental alarmism...
Let me guess, republican. I usually vote conservative but that is just so I can keep my guns so I will be able to get food when things go down. :smile:

Lets say the "environmental alarmist" are 90% wrong. Then it would be your kids kids rather then you kids that endure the issues. Or do you believe we can continue reproducing like we are forever without problems from it? Do the pictures from space showing the desserts expanding and the forest getting smaller concern you at all?
 
  • #42
LURCH said:
Although that statement is completely valid, I think that the reference frame of those observers not inside the vehicle is the one most pertinent to the current discussion. The absence of ET's in our backyard is a puzzle that relates to how much time it takes them to get here in our reference frame, not theirs, don't you think?

Not at all. It is just that things are taken out of context when read out of order.

In post #9 yenchin said:
" Space travel is not just about exploration though, it is essential for survival of any advanced species if they were to live pass the life time of their star. When the Sun goes into red giant stage, we had better have somewhere else to go by then (although one can just get into a space colony of some sort without traveling too far I supposed...)"

My first post concerning quick travel across the Milky Way in post #14:
"A 1G continuous acceleration rocket could take us from one edge of the Milky Way to the other in just 12 years travel time. Our likely destination would most likely be much less distance. Earth time may be many thousands of years but who cares if it is dying. It would be a one way trip to save the human race. "

Now it seems to make a lot of sense Don't you think?
 
  • #43
Arch2008 said:
I was simply showing that every ocean-going vessel in Columbus’ age could make the voyage to the New World and that similarly every space habitat would by design be capable of an interstellar voyage.

I agree, There was a time when crossing the Atlantic was impossible. I am sure there were many folks back then thinking just like many in this forum are thinking now. It won't be that hard to do with the know how and equipment just like space flight is routine now. My parents would have laughed at anyone talking about space travel when they were young.
 
  • #44
http://science.nasa.gov/headlines/y2008/31jul_solarsails.htm [Broken]
"Solar sailing is the only means known to achieve practical interstellar flight,"
http://www.niac.usra.edu/files/studies/final_report/333Christensen.pdf
http://science.nasa.gov/newhome/headlines/prop08apr99_1.htm [Broken]
http://aerospace.wcc.hawaii.edu/sail.html [Broken]
Etc.
Sorry if I skipped over too much. I didn’t want to hijack the thread discussing really basic stuff. The problem of interstellar flight is that not only must the fuel accelerate the mass of the craft, but the fuel must accelerate the mass of the rest of the fuel as well. I read in a book where someone had done the math that to send a 10 ton craft to the next star would take several thousand tons of antimatter and a similar mass of matter. A solar sail uses light “pressure” to move through space and doesn’t carry its fuel. The light would come from an enormous orbital laser that receives virtually endless energy from the Sun and then aims a beam at the sail. By angling the sail to create drag the ship can be slowed. Interstellar travel is possible and a species that colonizes a galaxy will find a way to get to the next galaxy. As I mentioned, there are lots of reasons for people like me or aliens to go to other stars and galaxies. My ancestors came from Europe. I’ve never missed their ‘home continent’ and I sadly don’t communicate with any distant relatives there.
 
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  • #45
Arch2008 said:
http://science.nasa.gov/headlines/y2008/31jul_solarsails.htm [Broken]
"Solar sailing is the only means known to achieve practical interstellar flight,"
Please. That is a quote from a solar sail fanatic. This ignores work (much more successful work) done in the realm of advanced propulsion techniques, and ignores other even more fanciful techniques (e.g., Bussard ramjets) that, like solar sails, are presently solidly in the realm of science fiction. From the same article, "To date, no solar sail has been successfully deployed in space as a primary means of propulsion."

Using a solar sail to launch a tiny unmanned probe to another star is science fiction but may well become science fact. Using a solar sail to launch a huge colonization spacecraft to another star is science fantasy.
 
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  • #46
N721YG said:
Not at all. It is just that things are taken out of context when read out of order.

In post #9 yenchin said:
" Space travel is not just about exploration though, it is essential for survival of any advanced species if they were to live pass the life time of their star. When the Sun goes into red giant stage, we had better have somewhere else to go by then (although one can just get into a space colony of some sort without traveling too far I supposed...)"

My first post concerning quick travel across the Milky Way in post #14:
"A 1G continuous acceleration rocket could take us from one edge of the Milky Way to the other in just 12 years travel time. Our likely destination would most likely be much less distance. Earth time may be many thousands of years but who cares if it is dying. It would be a one way trip to save the human race. "

Now it seems to make a lot of sense Don't you think?

Ah yes, now I follow you. Certainly the duration of the trip as experienced by those onboard the vehicle would be a significant factor regarding the decission to go or not.
 
  • #47
Jack21222 said:
Do you mean to tell me a species is going to travel 1000, 5000, 10,000, or 50,000 light years across the galaxy to live on our modest planet?


What do you think we would do if we found a livable planet and had the means to get there?

I have no doubt we would colonize it. Why should an alien race be any different?
 
  • #48
BoomBoom said:
What do you think we would do if we found a livable planet and had the means to get there?

I have no doubt we would colonize it. Why should an alien race be any different?

My point was there is an immense number of worlds, and turning any of those into a livable planet seems more efficient than traveling halfway across the galaxy. Even if we had the means to get there, I'm having trouble imagining a time where the expense to do it would be anywhere near trivial.

Also, why might an alien race be different? Well, because they're an alien race.

Sorry, circular argument, logical fallacies don't fly here, right?

An alien race would most likely have grown up in an entirely different environment than we have on Earth. There's no guarantee that the same chemicals and temperatures we find necessary for life would work for them. If we can't even get into alien biology, there's simply no way we can even begin to look at alien psychology, in my opinion.

This all started when LURCH failed to put in any kind of qualifiers to his "1,000,000 year upper limit" to a civilization before they colonize everything. With so many unknowns, I wouldn't be comfortable guessing at such a thing with a range smaller than 3 orders of magnitude.

I apologize for my abrasive tone earlier. Seeing exact numbers (such as the Drake Equation "solution,") where ranges spanning many orders of magnitude should be threw me off a bit.
 
  • #49
Jack21222 said:
My point was there is an immense number of worlds, and turning any of those into a livable planet seems more efficient than traveling halfway across the galaxy. Even if we had the means to get there, I'm having trouble imagining a time where the expense to do it would be anywhere near trivial.
Please stop using straw men. Nobody is saying that species would travel halfway across the galaxy to get here. That is a mischaracterization of the colonization argument. The colonization arguments says that an space-faring species would colonize every available planet in the galaxy in a fairly short period of time (10 million years constituting a short period of time compared to the age of the universe).

So, why hasn't this happened? There are after all several valid arguments against the Fermi paradox. Here are but a few:
  • Colonization is sporadic. A colony set up by a space-faring species will be on its own. Some colonies will die, some will stay contended in their new home. This is the percolation argument. http://www.geoffreylandis.com/percolation.htp

  • Space colonization is essentially impossible. Space travel even amongst the planets is presently an extremely expensive proposition. Even if a species does manage to expand beyond the bounds of its home planet, expanding beyond the bounds of its home star system may well be forever out of reach. http://www.antipope.org/charlie/blog-static/2007/06/the_high_frontier_redux.html

  • Intelligent species don't last long enough to take the first step. They self-destruct.

  • Intelligent species are so incredibly rare that we are for all practical purposes all alone. Stephen Webb, If the Universe Is Teeming with Aliens... Where Is Everybody? Fifty Solutions to Fermi's Paradox and the Problem of Extraterrestrial Life, Springer (2002). Webb provides 50 solutions to the Fermi paradox in this book. This is solution #50, and is his preferred solution.
 
  • #50
D H said:
Please stop using straw men. Nobody is saying that species would travel halfway across the galaxy to get here.

D H:

I was responding a specific post by BoomBoom saying that we would travel to a habitable planet if we had the means to get there. I said that we might not, because even if we had the means to get there, we'd likely also have the means to make a lot of easier steps. In that part of the post, I was not responding to aliens coming here, I was responding to the human species going elsewhere, and more specifically, the human species as it stands right now on Earth.

So, now who's using the straw man?
 
  • #51
Jack21222 said:
My point was there is an immense number of worlds, and turning any of those into a livable planet seems more efficient than traveling halfway across the galaxy. Even if we had the means to get there, I'm having trouble imagining a time where the expense to do it would be anywhere near trivial.

I find it hard to believe that terraforming an entire planet (that would also include travel to said planet) would be a trivial expense either ...in both cost and time.

If we had the capability to travel to other solar systems, a lush green "garden of eden" type planet that already existed would definitely be colonized before I can see us going through the costs and time that it would take to terraform a dead rocky world...even if it was much further away.

If that alien world had a different atmosphere that we couldn't live in, it probably wouldn't be as appealing. So I get your point about how an alien civilization might not have an interest if they can't live here.

It certainly is no guarantee that if advanced alien civilizations existed they would have been here. If they breathed a different substance and were scanning for habitibal planets, we'd be totally over-looked.

All that said, I still have doubts that these types of travel distances are or will ever be even possible...so the point may be moot.:rolleyes:
 
  • #52
BoomBoom said:
If we had the capability to travel to other solar systems, a lush green "garden of eden" type planet that already existed would definitely be colonized before I can see us going through the costs and time that it would take to terraform a dead rocky world...even if it was much further away.
Except that this garden of Eden planet is already colonized (else it would not be lush and green).

So, we wouldn't be colonizing it because

a] I like to believe we would have learned enough not to crowd-out and destroy a thriving ecosystem by polluting it with our own biomass, and

b] it would be totally alien life, so we could not metabolize it. That would make it useless to us. But it's not merely useless, it's worse than useless, because

c] while the rocky planet is passive, its resources merely waiting to be taken, a biologically active planet will actively compete with us for its resources (locking up useful chemicals, overgrowing areas and equipment, infecting, mutating etc.).

No, scientists and engineers are control freaks, and they like a nice, clean, sterile workstation to build on. No build-it-form-scratch effort is too costly when you compare it to unknowns in the form of impurities and contaminations.

(Imagine a lab scientist setting up an experiment to breed flies and deciding it would be better to use dirty containers rather than sterile containers since that way he doesn't have to by as much fly food and the flies will have a head-start on breeding. :wink:)
 
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  • #53
DaveC426913 said:
Except that this garden of Eden planet is already colonized (else it would not be lush and green).

So, we wouldn't be colonizing it because
a] I like to believe we would have learned enough not to crowd-out and destroy a thriving ecosystem by polluting it with our own biomass
and
b] it would be totally alien life, so we could not metabolize it. That means that it is actually a MUCH WORSE choice than the barren rocky planet. The rocky planet is passive, its resources merely waiting to be taken. But a biologically active planet will actively compete with us for its resources (locking up useful chemicals, overgrowing areas and equipment, infecting, mutating etc.).


a] You obviously have more faith in humanity to do the "right thing" than I do.

b] This kind of depends on the nature of alien life. Since we have yet to find any, it's hard to say how similar or different it would be. But you make a good point...I'm sure there may be some bad diseases out there that we would have no defense against.

c] It just seems to me that terraforming a planet would be a far more extensive endeavor than some make it out to be.
 
  • #54
DaveC426913 said:
I like to believe we would have learned enough not to crowd-out and destroy a thriving ecosystem by polluting it with our own biomass
This is a good argument against the Fermi paradox. Since scifi beat scientists to it, I'll call it the "Prime Directive" argument. You can see a nascent form of this directive with respect to opinions on how the discovery of life on Mars (if it that discovery happens) would/should impact terraforming of Mars. The spectrum of opinions:
  1. We shouldn't terraform Mars no matter what, even if it's sterile.
  2. If Mars has life, we shouldn't terraform Mars, doubly so if the life is non-terrestrial in nature. Variants:
    • If Mars has life, we should leave Mars alone. Period.
    • If Mars has life, we should study it but only with unmanned probes that are completely and thoroughly sterilized multiple times during the fabrication process and a few more times on the way to Mars.
    • If Mars has life, that life is obviously in trouble. We should aeroform Mars rather than terraform it (make Mars more suitable for Mars life).
    • If Mars has life, limited human missions to Mars are acceptable if we take extreme cautions to ensure that we don't introduce any terrestrial life to Mars.
  3. If Mars has life, we can still terraform Mars, but we should make little enclaves for those obviously dwindling remnants of Mars life. But only if doing so doesn't cost too much and doesn't interfere with the terraforming project.
  4. If Mars has life, we should commit xenocide.
Some reading material:

"Ethics of terraformation"
http://library.thinkquest.org/C003763/index.php?page=terraform02
A summary article. Use this to get a flavor of the debate. From the article, "The vast majority of Mars scientists and planetary biologists belong to the 'Green' camp in that they believe that Mars should be made 'green'. They have several impressive arguments in their arsenal. ... The 'Red' camp, in the minority, is adamantly opposed to the terraformation of Mars. 'Reds' believe that humans have no right to essentially destroy the current face of Mars just for our own concerns, and that we should preserve it in its current state so that we might conduct scientific experiments and learn more about the planet."

David Grinspoon, "Is Mars Ours? The logistics and ethics of colonizing the red planet", Slate, 2004.
http://www.slate.com/id/2093579/
Dr. Grinspoon is the Curator of Astrobiology at the Denver Museum of Nature & Science and has served on multiple NASA and ESA interplanetary science teams. From the article, "But before we go there and set up greenhouses, dance clubs, and falafel stands, let's make sure that, in some subtle form that could be harmed by the human hubbub, life does not already exist there."

Dave Brody, "Terraforming: Human Destiny or Hubris?", adAstra Online
http://www.space.com/adastra/adastra_terraforming_brody-1.html
Summarizes the debate between Chris McKay, astrogeophysicist at NASA Ames and Bob Zubrin, President of the Mars Society. Zubrin ranks as a high 3 on my scale. McKay, 2c.

"Ethics of terraforming", redcolony.com
http://www.redcolony.com/art.php?id=0107290
This article does a semi-decent job of presenting both sides given that redcolony.com is a rabidly pro-terraforming site.
 
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  • #55
DH, thank you for actually bringing up some of the arguments against the Fermi Paradox. Although this thread is getting fairly long, I think it might be worth our while to discuss some of these example arguments and explore their merits. Although (as has already been mentioned) each of these arguments is "valid" in the philosophical sense, none of them present a very convincing refutation of the Fermi Paradox, in my opinion.

Going down the list:
D H said:
  • Colonization is sporadic. A colony set up by a space-faring species will be on its own. Some colonies will die, some will stay contended in their new home. This is the percolation argument. http://www.geoffreylandis.com/percolation.htp


  • Particularly the part about some colonies stating contended and remaining where they are. Although this may be theoretically possible, e coloniz it has never been observed in any living species

    [*]Space colonization is essentially impossible. Space travel even amongst the planets is presently an extremely expensive proposition. Even if a species does manage to expand beyond the bounds of its home planet, expanding beyond the bounds of its home star system may well be forever out of reach. http://www.antipope.org/charlie/blog-static/2007/06/the_high_frontier_redux.html

    The theory behind this cannot be definitively disproved (at the moment). However, given that both manned spaceflight and extrasolar spaceflight are already realities, I believe the human race is not far (in cosmic terms) from manned extrasolar spaceflight.

    [*]Intelligent species don't last long enough to take the first step. They self-destruct.

    This one seems fairly likely, but does it actually constitute an argument against the Fermi Paradox? To me it sounds more like an argument for it; we are alone in the universe because other technological civilizations have destroyed themselves.

    [*]Intelligent species are so incredibly rare that we are for all practical purposes all alone. Stephen Webb, If the Universe Is Teeming with Aliens... Where Is Everybody? Fifty Solutions to Fermi's Paradox and the Problem of Extraterrestrial Life, Springer (2002). Webb provides 50 solutions to the Fermi paradox in this book. This is solution #50, and is his preferred solution.

Now that I re-read it, I see that the claim that we are alone in the universe is a solution to the paradox. It points to a solution of "zero" (other civilizations in the galaxy)
for the Drake Equation.

Another proposed solution is to invoke the famous "Prime Directive," stating that other advanced civilizations exist, they are here in our neighbourhood, but they refrain from making contact. Again, this is not impossible, but no real-world examples can be found. Whenever one civilization has encountered another on this planet, contact is immediately made (often to the detriment of the less technologically advanced civilization).

(BTW; I was not making reffering to that in my earlier post, I was just saying that if other civilizations had colonized Earth before thet rise of man, we would probably not have "risen")

(Took way to long composing my response, but there it is anyway).
 
  • #56
D H said:
[*]If Mars has life, we shouldn't terraform Mars, doubly so if the life is non-terrestrial in nature. Variants:
  • If Mars has life, we should leave Mars alone. Period.
  • If Mars has life, we should study it but only with unmanned probes that are completely and thoroughly sterilized multiple times during the fabrication process and a few more times on the way to Mars.
  • If Mars has life, that life is obviously in trouble. We should aeroform Mars rather than terraform it (make Mars more suitable for Mars life).
  • If Mars has life, limited human missions to Mars are acceptable if we take extreme cautions to ensure that we don't introduce any terrestrial life to Mars.
2c had never occurred to me.
 
  • #57
LURCH said:
DH, thank you for actually bringing up some of the arguments against the Fermi Paradox.
You're welcome.

This one seems fairly likely, but does it actually constitute an argument against the Fermi Paradox?
My bad. The only real argument against the Fermi paradox is along the lines of "They're heeere". What I erroneously called "arguments against" are better called "solutions of".If we stick to discussions of solutions of the Fermi paradox in this thread, the thread might have a chance to continue on. If this thread continues with the overly speculative posts and high school histrionics that have plagued this thread so far, it will be locked. So, please everyone, keep the discussion dispassionate and civil.
 
  • #58
D H said:
If this thread continues with the overly speculative posts and high school histrionics that have plagued this thread so far, it will be locked.


With all due respect, the very topic of this thread, "Alien life", requires speculation.

...indeed the Fermi paradox itself is speculative.
 
  • #59
BoomBoom said:
With all due respect, the very topic of this thread, "Alien life", requires speculation.
We have rules against overly speculative posts at this site. That discussions on alien life do take place in serious scientific literature is the sole reason the site's moderators have allowed this thread to have lived as long as it has.

A review of some pertenant rules is in order.
PF Rules said:
Overly Speculative Posts:
There are many open questions in physics, and we welcome discussion on those subjects provided the discussion remains intellectually sound. It is against our Posting Guidelines to discuss, in most of the PF forums, new or non-mainstream theories or ideas that have not been published in professional peer-reviewed journals or are not part of current professional mainstream scientific discussion. Posts deleted under this rule will be accompanied by a private message from a Staff member, and, if appropriate, an invitation to resubmit the post in accordance with our Independent Research Guidelines. Poorly formulated personal theories, unfounded challenges of mainstream science, and overt crackpottery will not be tolerated anywhere on the site. Linking to obviously "crank" or "crackpot" sites is prohibited.

Guidelines on Langauge and Attitude:
Foul or hostile language will not be tolerated on Physics Forums. This includes profanity, obscenity, or obvious indecent language; direct personal attacks or insults; snide remarks or phrases that appear to be an attempt to "put down" another member; and other indirect attacks on a member's character or motives.

Please treat all members with respect, even if you do not agree with them. If you feel that you have been attacked, and the moderators or mentors have not yet gotten around to doing something about it, please report it using the "Report" button. If you choose to post a response, address only the substantive content, constructively, and ignore any personal remarks.

It is better to walk away from a possible confontation and come back later with constructive arguments.

I find this to be an interesting topic. I would hate to see the thread closed just because too many posts are overly speculative or full of histrionic attacks.
 
  • #60
LURCH said:
Although intergalactic travel seems unlikely without speeds above c, interstellar travel is quite likely. This is a part of the Fermi paradox; if other intelligent life exists in this galaxy, why aren't they here? Given no lightspeed, and advances no quicker than our current pace, we will be all over this galaxy in less than 100,000 yrs.

If another civilization exists within this galaxy, it would have to be less than 1,000,000 yrs old, or they would have collonized Earth before we arose. This is a very narrow window, and makes it unlikely that such a civilization currently exists.

I'm studying anthropology, and humanoids have been on Earth dating back to 6-7 million yrs ago. So they would of had to come before then. But i completely believe in a united religion and science, and i still think that "ufo's" and aliens are real. Besides that, it gives people hope and helps them look towards the "bigger picture", so even if they aren't real, they are in our hearts.
 
  • #61
LURCH said:
If another civilization exists within this galaxy, it would have to be less than 1,000,000 yrs old, or they would have collonized Earth before we arose.
There is absolutely no rational logic that could possibly lead to that conclusion. Unless you're having trouble with the line between science-fantasy and reality. Or you're actually one of them, and know what they like in a planet...
 
  • #62
Remnant said:
But i completely believe in a united religion and science...
This is impossible. Religion is based on faith as opposed to knowledge; science is based on replacing faith with knowledge.

While it is possible for one person to hold the two tenets at the same time, they are, by definition, in conflict with each other. That's OK too - No one said humans have to be consistent.

But they will never be unified.


But that's another discussion.

Er... Another forum I mean...
 
  • #63
DaveC, I disagree with your description of both science and religion, but as you say, it belongs elsewhere. However, the "unification" idea that the truth or falsehood of a proposition depends on how it makes people feel is certainly unscientific.
 
  • #64
Remnant said:
I'm studying anthropology, and humanoids have been on Earth dating back to 6-7 million yrs ago. So they would of had to come before then.

The point I was trying to make was that humanity would never have achieved civilization at all in that case. Palientologists are generally agreed that the human race would not have risen to the top of the food chain if something hadden't wiped out the dinosaurs. By that same line of reasoning, if some civilized and technologically advanced species had colonized Earth before we started making spears and wearing animal skins, we would still be living in the forest in small troops.
 
  • #65
DaveC426913 said:
There is absolutely no rational logic that could possibly lead to that conclusion. Unless you're having trouble with the line between science-fantasy and reality. Or you're actually one of them, and know what they like in a planet...

Tell that to Fermi; it's his paradox!
 
  • #66
I don't believe you guys didn't think outside the box: What if Alien 'civilizations' (if we could call them that) are so far more advanced than us, say 3 billion years ahead.. wouldn't we just be animals to them? Or even worse, they'll see us as bacterias and would NOT want to contact such a primitive organism. And they would NOT be limited by the huge traveling distances through space since they can gather enough energy to open portals to other dimensions.

And who says Aliens that advanced aren't here already? Just like Humans using satellites to spy on Chimpanzees undetected, the Aliens could be around us, or even in some hidden dimension in front of us, spying on us. We can't see them of course, because their technology inhibits our detection... they're simply invisible.

For all intents and purposes, I think it'd be impossible for us to imagine how an Alien that's 3 billion years more advanced, would think.. It'd be like a dog trying to imagine what it's like to be living the life of a human being.. going to work, buying shares, space traveling and doing other 'human tasks'. These Aliens (I call them type V civilizations) are so far ahead of us, we simply cannot fathom their minds.

And their agenda could be totally different from ours (the Aliens, I mean)
 
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  • #67
Or emagine us as the aliens. That we are the advances species traveling to a distant planet and the aliens we meet there are as advanced as we were in the 1800's and they are the ones who emagine us
 
  • #68
Nabeshin said:
Will we really? Technologically, I certainly agree with you. Socially however, as I pointed out, do you really think we would fund such expeditions that we have no chance of hearing back from in our lifetimes? Are we going to spend trillions of dollars simply to send people out in space to never return?

The only way this seems possible is if every single social crisis on Earth is solved and there's literally nothing better to do.

Or possibly just the opposite, ie its the last great hope to save mankind!
 
  • #69
Djrob99 said:
Or possibly just the opposite, ie its the last great hope to save mankind!

You're being too romantic.
 
  • #70
Zdenka said:
I don't believe you guys didn't think outside the box: What if Alien 'civilizations' (if we could call them that) are so far more advanced than us, say 3 billion years ahead.. wouldn't we just be animals to them? Or even worse, they'll see us as bacterias and would NOT want to contact such a primitive organism. And they would NOT be limited by the huge traveling distances through space since they can gather enough energy to open portals to other dimensions.

And who says Aliens that advanced aren't here already? Just like Humans using satellites to spy on Chimpanzees undetected, the Aliens could be around us, or even in some hidden dimension in front of us, spying on us. We can't see them of course, because their technology inhibits our detection... they're simply invisible.

For all intents and purposes, I think it'd be impossible for us to imagine how an Alien that's 3 billion years more advanced, would think.. It'd be like a dog trying to imagine what it's like to be living the life of a human being.. going to work, buying shares, space traveling and doing other 'human tasks'. These Aliens (I call them type V civilizations) are so far ahead of us, we simply cannot fathom their minds.

And their agenda could be totally different from ours (the Aliens, I mean)



Yes, I think you have quite a valid point here. if we just look around at the hierarchy of species here and apply the basic same rules to at least the level of our understanding, then advanced civilizations (if any exist) could well fall into this categorization.

I think perhaps that if and when we do discover another life form ie. alien, it will not be advanced to a great degree beyond us.
A guppy swimming in the ocean can discover another guppy. Even if the other guppy is larger and much more colorful.
However, the guppy can not discover a soaring eagle, or at least until he achieves that status over millions of years.
I apologize for the philosophical nature here, but it is the best way I can put it.
I can't give an equation for it.

On the lighter side however. I think if we were advanced enough to do close interstellar travel. I think I would put us on par with the 'Ferengay'.
 
<h2>1. What are the odds of finding alien life?</h2><p>The odds of finding alien life are difficult to determine, as there is currently no definitive evidence of extraterrestrial life. However, many scientists believe that the universe is vast and contains billions of potentially habitable planets, increasing the chances of finding alien life.</p><h2>2. What methods are being used to search for alien life?</h2><p>Scientists use a variety of methods to search for alien life, including radio telescopes to listen for potential signals from other civilizations, space probes to explore planets and moons in our solar system, and spectroscopy to analyze the chemical composition of exoplanets.</p><h2>3. How do scientists define "life" in the search for extraterrestrial life?</h2><p>Scientists typically define life as a self-sustaining system capable of reproduction, metabolism, and evolution. However, this definition may need to be expanded or modified in the search for alien life, as we may encounter forms of life that are drastically different from what we know on Earth.</p><h2>4. What are the potential implications of discovering alien life?</h2><p>The discovery of alien life would have significant implications for our understanding of the universe and our place in it. It could also have practical implications, such as advancements in technology and medicine based on studying alien biology.</p><h2>5. How would we communicate with alien life if we were to find it?</h2><p>Communicating with alien life would be a complex and challenging task. Scientists have proposed various methods, such as using mathematics or universal symbols, to attempt communication. However, it is also possible that alien life may communicate in ways that we cannot even imagine.</p>

1. What are the odds of finding alien life?

The odds of finding alien life are difficult to determine, as there is currently no definitive evidence of extraterrestrial life. However, many scientists believe that the universe is vast and contains billions of potentially habitable planets, increasing the chances of finding alien life.

2. What methods are being used to search for alien life?

Scientists use a variety of methods to search for alien life, including radio telescopes to listen for potential signals from other civilizations, space probes to explore planets and moons in our solar system, and spectroscopy to analyze the chemical composition of exoplanets.

3. How do scientists define "life" in the search for extraterrestrial life?

Scientists typically define life as a self-sustaining system capable of reproduction, metabolism, and evolution. However, this definition may need to be expanded or modified in the search for alien life, as we may encounter forms of life that are drastically different from what we know on Earth.

4. What are the potential implications of discovering alien life?

The discovery of alien life would have significant implications for our understanding of the universe and our place in it. It could also have practical implications, such as advancements in technology and medicine based on studying alien biology.

5. How would we communicate with alien life if we were to find it?

Communicating with alien life would be a complex and challenging task. Scientists have proposed various methods, such as using mathematics or universal symbols, to attempt communication. However, it is also possible that alien life may communicate in ways that we cannot even imagine.

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