Talk:Drake equation/Archive 2

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Just added a note to say that the Drake equation is an example of a Fermi problem and so more accurate than you would expect, was surprised no-one has mentioned it yet :). It is mentioned on the Fermi problem page, so it's just a case of linking the information both ways between the pages. Robert Walker (talk) 08:48, 21 April 2013 (UTC)

I've altered the figures to agree with those used in the BBC program (currently on iPlayer) "The Search for Life: The Drake Equation". Since Drake himself is on film performing the calculations, and since there is no references at all as to where the numbers came from, I think I've legimate in doing so. APL92 (talk) 01:44, 19 January 2011 (UTC)

I tried to watch this, but got "Not available in your area". Did he explicitly say these were the figures he used in 1961? Or could they be the figures he now believes? LouScheffer (talk) 02:05, 19 January 2011 (UTC)

The values on the page today are not the same as those given in the original interview which I have just watched. The following are the values said by Drake to have been the original ones together with a brief note on his justification: No of of stars formed per year 10 well known; Proportion of stars with planets 0.5 based on indirect evidence from binary stars; No of planets that are habitable 2 Earth and Mars (later he said this would should now be 4 to include the satellites of Jupiter and Saturn); Fraction of planets that would develop life 1 chemical experiments showed that life would eventually appear; Fraction that would develop intelligent life 0.5 a big guess but the fossil record shows brain size continues to increase; Fraction that would communicate 1 based on our history; Time for which communications would take place 10,000 years a conservative guess; and this gives 50,000 as a result. Ted (talk) 17:03, 5 May 2012 (UTC)

Just a heads up - this article has been linked to from Dinosaur Comics (http://www.qwantz.com/index.php?comic=1872) with predictable consequences. Looks like a people will be trying to sneak in Green Lantern or T-rex references for a few days. —Preceding unsigned comment added by 217.154.148.149 (talk) 11:11, 7 January 2011 (UTC)

This article is linked to in this press article: Man Uses Math to Explain Girlfriend Woes Samboy (talk) 05:22, 14 January 2010 (UTC)

So this is just a guess? —Preceding unsigned comment added by AdbMonkey (talk • contribs) 13:22, 26 October 2010 (UTC)

The equation

${\displaystyle N^{\ast }=\int _{0}^{T_{g}}R^{\ast }(t)dt,\,\!}$

ignores the fact that all stars have a finite lifespan, as they will either undergo a supernova or become a white dwarf. In fact, our Galaxy is known to have multiple generations of stars, and not a single "first-generation" star (i.e. population III) has yet been discovered. Furthermore, assigning an age to a galaxy is rather ambiguous, since it is now known that galaxies (especially large ones) have undergone many mergers with other galaxies. Thus it can said that the age of all galaxies is (nearly) the age of the Universe. In the general case we might put

 ${\displaystyle N^{\ast }=\int _{0}^{T_{g}}(R^{\ast }-R^{D})(t)dt,\,\!}$

where

${\displaystyle R^{D}}$ 

is the rate at which stars are destroyed, by going (super)nova or becoming white dwarfs or being torn apart by gravitational forces during galactic collisions. — Preceding unsigned comment added by Cato9 (talk • contribs) 05:46, 28 February 2013 (UTC)

RM below about L to talk. If L is the length of time such civilizations release detectable signals into space then Grote Reber and radio astronomy have nothing to do with this value, his antenna was a receiver, not a transmitter. Maybe the example should date back to the Invention of radio. Fountains of Bryn Mawr (talk) 00:23, 4 March 2010 (UTC)

The value of L can be estimated from the lifetime of our current civilization from the advent of radio astronomy in 1938 (dated from Grote Reber's parabolic dish radio telescope) to the current date. In 2009, this gives an L of 7300 years. However such an assumption would be erroneous. 71 for the value of L would be an artificial minimum based on Earth's broadcasting history to date and would make likely the possibility of other civilizations existing. 10,000 for L is still the most popular estimate.

In the "Current estimates of the parameters" section, it says that Drake estimated f_l to be 1, whereas a couple other guys more recently estimated it to be 0.13. However, in the two sections that calculate N based on the current estimates (both at the bottom of the "Historical estimates" section and the bottom of the "Current estimates" section), a value of 0.33 is used for f_l. Where did 0.33 come from? Should an explanation should be added regarding how 0.33 was derived, or should we be using 0.13 in our current estimate calculation of N? SnottyWong talk 21:29, 19 April 2010 (UTC)

Using the following document as a source: [[1]] more than 50% of solar-type stars harbor at least one planet of any mass and with period up to 100 days. (Easy to detect, relatively) About 14% of solar-type stars have a planetary companion more massive than 50M-Earth

solar-type stars are important because they are the easiest to work with, so using these as a sampling we can extrapolate probabilities of non solar-type systems should be relatively similar.

Take a couple of facts from this page. 50% solar-type stars harbor a planet we can detect (Massive and fast orbiting). Jupiter has a period of over 3000 days, 30 times more than we are detecting. This means we are talking about massive planets as close to their star as Mercury is to the Sun.

[[2]] Talks about detecting a planet in a binary star system, a major breakthrough.

If you add up all of the data presented on these page, and include our observations of Sol with 8 planets (Not currently detectable by our technology), the logical conclusion is that almost no star system would be without planets. So a more educated estimate should be closer to 1.0, or at least 0.9. We are likely in the 96% statical range for the number of planets at least, and our system is likely not a freak or very special, it is far more likely it is common. — Preceding unsigned comment added by 216.55.51.54 (talk) 22:10, 12 June 2012 (UTC)

Isn't f_l an fraction of the occurrence of life? (Looks like you are debating f_p.) Then why isn't Extraterrestrial organic molecules cited here? Kortoso (talk)

Hello

The late Ernst Mayr was the most famous biologist at our times, especially in the theory of evolution which is most relevant here, and he criticised the SETI project in various occasions. I find the discussion he had with Carl Sagan, one of the fathers of SETI especially enlightening and that is why I added it. Now the current section about critics of the SETI project contains a cite of Michael Crichton, a science fiction writer and removed the Mayr link. With all due respect to Mr. Crichton but I think the critics of Ernst Mayr is far more relevant. One of his arguments, which he clearly emphasised as being speculative is based on the fact that of the many species on earth, which might be in the billions, only one developed intelligence. Now the wording of the paragraph I added can be changed of course and rephrased, but leaving Crichton in and Mayr out, seems to me sort of ridiculous. Oub (talk) 12:52, 28 April 2010 (UTC):

Mayr's argument is actually fallacious. The reason only one species on Earth developed a technological intelligence is that there is only one niche per planet for such a species. Reflect on the fate of the Neanderthals. WolfmanSF (talk) 22:57, 2 October 2010 (UTC)

You're loading a lot of weight onto a highly speculative claim. What is your evidence for this conclusion? What peer-reviewed journals has this been published in?Dogface (talk) 17:37, 18 February 2011 (UTC)

Hi! The recent edits include a rather non-NPOV view in my opinion, saying the numbers are manipulated, and so on. This strongly implies that the editor knows what the true answer is, whereas no-body does. Also, there's no inconsistency in assuming life is very likely (it arose quickly on earth) but communicative life is rare. We don't communicate yet, there are lots of reasons a society might believe it unsafe (see Fermi paradox, and possible reasons for it), and there's a pretty strong bias in published literature about listening first before we transmit. Please provide a reference stating these are inconsistent since many sources find them reasonable (as much as any assumption can be reasonable in a field like this.) Other's views are of course welcomed on this topic. LouScheffer (talk) 18:11, 18 February 2011 (UTC)

In that case, all the parameters should just honestly be called wild ass guesses pulled out of someone's backside. As for "many sources" finding a particular wild ass guess to be reasonable, that's the logical fallacy of argumentum ad populum. What is the evidence to back up the specific numbers and reject other numbers. Where is the hard evidence. Please point out where this evidence is published in peer reviewed professional journals.Dogface (talk) 18:13, 21 February 2011 (UTC)

In the equation appear the factors

:fc = the fraction of civilizations that develop a technology that releases detectable signs 
of their existence  into space
:L = the length of time such civilizations release detectable signals into space.

It might be, that such civilization existed for 1 million years, that would produce a good result of calculation for N.

But if that happened 100 million years ago, and 99 million years ago that civilization disappeared, we cannot communicate. Should a "factor of same time" be added to the equation? Is there anything in the literature? --Hans W (talk) 15:14, 14 August 2010 (UTC)

Yes, it seems that the equation is missing the "overlap" factor for at least two such civilizations exist concurrently within the spatial range of radio detection during the lifetime "L".Xtarka (talk) 16:18, 31 January 2015 (UTC)

It is not true that ε_Earth = f_p x n_e (where ε_Earth is the the fraction of stars with Earth-like planets). Consider an extreme but illustrative example. If f_p = 0.01 (only 1% of stars have planets) and n_e = 100 (each of those stars has 100 Earthlike planets), then ε_Earth = 0.01, but f_p x n_e = 1.0. You need to know the statistical distribution of n_e to calculate ε_Earth. WolfmanSF (talk) 23:13, 2 October 2010 (UTC)

I'm not sure why this article emphasizes the number of stars formed per year, without multiplying that number by the number of years the galaxy has been forming stars! This matter is explained somewhat in the subsection "Alternative expression" but later ignored in the "Current estimates of the parameters" section. The result is that the first three terms of the right hand side give the number of earth-like planets formed per year. The end result, 2.31 civilizations, is an absurdly low estimate. The original Drake equation was: ${\displaystyle N=N_{g}\times f_{p}\times n_{e}\times f_{\ell }\times f_{i}\times f_{c}\times L\!}$ where the first term on the right-hand side is the number of stars in the galaxy. ${\displaystyle N_{g}}$ is on the order of 200 to 400 billion, not 7. I have edited the "Current estimates" section with the estimates made by James Kasting in his book "How To Find A Habitable Planet". 70.112.186.143 (talk) 03:23, 10 October 2010 (UTC) Eric

I'm taking issue with the text

• fi = the fraction of the above that actually go on to develop intelligent life. Estimated by Drake as 0.01 based on little or no evidence. This value remains particularly controversial. Pessimists such as Ernst Mayr point out that of the billions of species that have existed on Earth, only one has become intelligent[18] and infer a tiny value for fi.

the view that Earth has only one intelligent species is ridiculous and offensive. in fact it harbours several very intelligent species. this aspect of the controversy has not been exposed in the article. some versions of the drake equation, however, do make the distinction between intelligence and technological advancement as different factors. -- 99.233.186.4 (talk) 01:43, 13 November 2010 (UTC)

Hm, please name another intelligence species on this planet! In order to prevent a fight over the word intelligence, the basic motivation of the Drake equations is to communicate. So instead of looking for an intelligent species one could say a species which posses a language with a full developed grammar, so I am curious which species do you have in mind? Oub (talk) 17:45, 16 November 2010 (UTC)

Not just communicate with each other. A species would have to be intelligent enough to develop long range inter-stellar communication. Something the neanderthals and chimpanzees never accomplished.--71.194.190.179 (talk) 04:13, 12 January 2012 (UTC)

There is an issue here on whether you take the factor to be developed intelligent life which has survived or developed intelligent life. Neanderthals were capable of speech, as were other Hominids (I think), but are of course extinct. Since the article simply mentions developing intelligent life, and not the added clause of survival, I'm (in my view) rectifying this. APL92 (talk) 01:44, 19 January 2011 (UTC)

I suspect that our definitions of "intelligence" will be severely jacked about when we finally find extraterrestrial life. We are having a hard enough time recognizing intelligence among our fellow tool-using animals. Kortoso (talk) 20:22, 2 October 2015 (UTC)

The actual subsection the fraction of the above that actually go on to develop intelligent life reads

Estimated by Drake as 0.01 based on little or no evidence. This value remains particularly controversial. Pessimists such as Ernst Mayr point out that of the billions of species that have existed on Earth, only one has become intelligent[18] and infer a tiny value for fi. Optimists note the generally increasing complexity of life and conclude that the eventual appearance of intelligence might be inevitable, meaning fi=1.[19]

several remarks:

1. Mayr was a very famous biologist that should be mentioned.
2. He is denoted as a pessimist, that is clearly POV , it would be more accurate to call him realist but I think it is best to drop any label.
3. Now [19] is cited presenting a counterargument. first of all it is written by enrico , is this any known or even famous biologist? Besides in this article it not claimed that fi=1.

Given all that I suggest to drop pessimist for Mayr and drop the link to enrico. Oub (talk) 22:01, 18 November 2010 (UTC):

Famous is true, but irrelevant. Especially in this field, where little is known for sure, famous does not guarantee anything. (Einstein, clearly a famous physicist, said God does not play games with dice, but the consensus now is that he was wrong...).

Also, I provided a very solid reference to "Generally increasing complexity of life". Even if you object to some other reference, please do not remove this one. There is no doubt that many SETI folks have set the probability to 1 (that's what Meyr is objecting to....), based on (among others) this argument. So adding a "citation needed" is as far as you should go in this area.

Finally, it's not POV to summarize the two conclusions and the arguments behind them. Even though you, personally, may feel one is much stronger than the other, both have been used in the field, so they should remain. Removing, or minimizing, one of them only, is quite POV by itself. LouScheffer (talk) 19:14, 21 November 2010 (UTC)

Re: LouScheffer thanks for your answer. To make this clear: Both estimates about the value of fi should be mentioned. I only objected to the version Mayr vs Enrico. The second reference you inserted is solid enough, however I would prefer to leave out the first one, but I don' want to make a war about it. The formulation which I feel uneasy about it, is the word pessimist, that in my opinion is too strong and too biased, what's about skeptic instead of pessimist. Oub (talk) 11:24, 22 November 2010 (UTC):

The current meaning of 'pessimist' is someone who is pessimistic about making contact (for any one of a number of reasons). In this sense Mayr is definitely a pessimist, as I think he would agree. Similarly, 'optimists' are those who are optimistic about the chances of making contact, or at least about intelligence evolving. I personally think 'skeptic' is better reserved for those who believe all such calculations are unreliable at best, as opposed to those who are skeptical of making contact. Maybe we could say 'Contact pessimists' and 'contact optimists' or just replace it with the more bland 'some' and 'others'. LouScheffer (talk) 03:22, 23 November 2010 (UTC)

Re: LouScheffer hm Mayr is dead, so we can't ask him. I strongly recommend not to use pessimist or optimist but some and others. Oub (talk) 14:21, 23 November 2010 (UTC):

In the section "The Equation", we have: L = the length of time for which such civilizations release detectable signals into space.

Then in the section: "Historical estimates of the parameters", we have: L = ... (which will last .... years)

Now how long a civilisation lasts, versus how long it releases detectable signals, are VASTLY different things.

Expanding from that, I also have difficulties with these very large values of L. Look at what's happened here on planet earth, in terms of "unintended" signals: that is, signals that might be detected by an ETI even though that is not their target audience. For example, in terms of broadcast radio, over the last 40 years, we have gone from relatively small numbers of very powerful AM and shortwave radio stations, which are quite wasteful, to a relatively huge number of far less powerful and less wasteful FM and digital stations. But due to the very fact that they are more efficient and less wasteful, they are therefore far more difficult for an ETI to receive.

We could reasonably anticipate/extrapolate that this would not be a Sol-centric phenomenon: that as a civilisation becomes more advanced it develops more complex and efficient communication methods that by definition are more difficult to detect unintentionally. This has to have some effect on the value of L. Old_Wombat (talk) 09:20, 2 July 2011 (UTC)

I'd agree we need a more consistent use of L. The argument you are making about radio signals is covered in more detail in Fermi paradox#Civilizations only broadcast detectable radio signals for a brief period of time. On the other hand, other technologies that we are starting to use (such as large scale solar power) might also signal our presence. See, for example, "Large Scale Use of Solar Power May be Visible Across Interstellar Distances".. LouScheffer (talk) 13:56, 3 July 2011 (UTC)

I agree with both comments above. How long a civilization releases detectable signals is clearly what matters, but popular media always seems to define L as the lifetime of a civilization after it achieves the (radio) technology that distant others (we) can detect, which may greatly exceed the length of time they emit detectable radio. Given our developments of alternative forms of communication (fiber optic cable and satellites having transmitters directed toward the ground) it seems naive to assume we will continue to transmit detectable radio into space as long as our civilization continues to exist. Modifications of the Drake Equation to account for colonization of other planets need to consider this too, since colonies won't necessarily revert to detectable radio after their parent civilization has advanced beyond detectable radio. Lou Scheffer's comment about detectable solar power is relevant, but solar power may be a temporary technology too; would a civilization powered by nuclear fusion reactors be detectable? SEppley (talk) 14:40, 5 March 2012 (UTC)

Another factor relevant to the calculation of L is the length of time once a civilization begins to emit detectable signals after which they are detected and destroyed by another more advanced civilization (perhaps using Von Neumann spacecraft) that's wise enough not to emit detectable signals and doesn't want competitors increasing the galaxy's entropy. ;-) SEppley (talk) 14:40, 5 March 2012 (UTC)

The link to the source for the T.J. Nelson quotation in the Criticism section is dead. Moreover, I can't find any information online that would establish his authority on this or any related topic. I suggest removing the quotation and reference. Schomerus (talk) 18:29, 7 November 2011 (UTC)

OK, I replaced the link with one that works. I did not look at his credentials, but think the criticism is worth including. LouScheffer (talk) 15:35, 9 November 2011 (UTC)

I removed it, because I think the author is not notable enough. I searched for how Nelson relates to Drake equation via google and found a lot of forums/blogs including this citation (most of them probably copied from the wiki article, since artifacts, such as [24] are present), but no WP:RS. One thing is that he's neuroscientist, not cosmologist or astronomer, so if we don't have reliable sources to establish notability of his citation, we probably shouldn't include it. 1exec1 (talk) 19:09, 10 November 2011 (UTC)

Hey, watch it! I'm a neuroscientist myself.[3] Seriously, there are very few folks who can list Drake Equation specialist as their day job, and the ideas are simple enough that anyone with a scientific background is on roughly equal footing. And if you want to keep one criticism, I'd prefer one from a real working scientist to one from a science fiction author. (Though any decent science fiction author could comment intelligibly as well.) LouScheffer (talk) 03:10, 11 November 2011 (UTC)

I did not have anything about neuroscientists. I just couldn't find any information about the author to verify his credibility. If we could find at least one WP:RS that talks about his quotation then we can keep it. Regarding that fiction author, there are some solid sources that think he's qualified to talk about Drake equation, e.g. Wall Street Journal 1exec1 (talk) 17:45, 11 November 2011 (UTC)

Shouldn't this section use stronger language here? "It is known from modern planet searches that at least 40% of sun-like stars have planets" "However, a new study[12] suggests that fp may approach 1" I would say that the first sentence should read "It is known from modern planet searches that each star in the milky way has 1.6 planets" Lansey (talk) 18:30, 12 January 2012 (UTC)

I went with the more cautious language because there are such widely varying estimates; '40% of sun-like stars' to '100% of stars' is a pretty wide spread, so I didn't feel comfortable with going stronger than the reference to the new study. I think the new numbers are probably good, but given the early stage we're at in the science, and the wide range of estimates to date, that a little caution is warranted pending further data. The Rev (talk) 16:53, 15 January 2012 (UTC)

The latest Kepler results http://www.pnas.org/content/early/2013/10/31/1319909110 summarized in the Grauniad http://www.theguardian.com/science/2013/nov/04/planets-galaxy-life-kepler and presumably elsewhere say "We find that 22% of Sun-like stars harbor Earth-size planets orbiting in their habitable zones. The nearest such planet may be within 12 light-years." I'm not sure how that maps back into the individual parameters

R_* = the average rate of star formation in our galaxy

f_p = the fraction of those stars that have planets

n_e = the average number of planets that can potentially support life per star that has planets

2 billion total, right now. Alanf777 (talk) 02:49, 5 November 2013 (UTC)

Read the fine print in the paper. Although Kepler estimates an amount of Earth-sized planets, they are not Earth-like: There are several caveats. Although these planets are Earth-size, nobody knows what their masses are and thus whether they are rocky like the Earth, or balls of ice or gas, let alone whether anything can, or does — or ever will — live on them. The estimate cannot offer data on habitability, other than being in "Goldilock zones". Cheers, BatteryIncluded (talk) 02:21, 8 November 2013 (UTC)

Read the fine-print of the definitions =8-) f_p is the TOTAL number of planets, including gas giants, and too-close or too-far orbits. Even this number is bumped up by the new number of earth-SIZED planets. n_e -- habitability -- must surely be refined by the fact that they are earth-sized (not gas giants) AND the fact that they are Goldilockily potentially habitable. I put in the comment to alert editors to the fact there is new data, but that the impact on these two parameters is not clear. It is quite likely that both parameters must be increased significantly. Alanf777 (talk) 00:24, 10 November 2013 (UTC)

Point taken. Lets hope a researcher will soon publish a new "Drake equation estimate" using this value, so we can add it to the article with a reference. However, the more common Earth-like planets the worse the Fermi Paradox becomes. Cheers, BatteryIncluded (talk) 01:49, 10 November 2013 (UTC)

Phew! You missed my mistake : f_p is the TOTAL number fraction .. Alanf777 (talk) 03:00, 10 November 2013 (UTC)

Many of the planets discovered by Kepler are so close to their suns that they are as hot as Mercury, or even worse. Others are in parabolic orbits that take them out of the habitable zone for much of their year, assuming they were ever in it in the first place. All that can be said about those stars is that they have planets. Kepler further concentrated on G and K type stars near the sun. Core stars which form the majority of the galaxy are not included. A few Halo stars may be included. 71.174.135.36 (talk) 04:17, 9 February 2016 (UTC)

There are papers that try to discard all the bad candidates and count only the ones that might be habitable. For example, see The occurrence of potentially habitable planets orbiting M dwarfs estimated from the full Kepler dataset and an empirical measurement of the detection sensitivity. These M dwarves are the most common type of star in the galaxy. LouScheffer (talk) 15:45, 9 February 2016 (UTC)

We need to be careful to avoid original research. For the Equation results section, do any reliable sources explicitly advocate the "assume 0 for parameters that have no backup for any estimate" and "assume 1" approaches respectively? This was just added. I haven't checked all the sources, but there is no footnote for the "assume" part itself. Superm401 - Talk 21:02, 13 February 2012 (UTC)

I agree, both 'assume 0' and 'assume 1' need to go. 'Assume 0' leads to the only answer to this equation that we can factually say is false (that of none at all) so it's not possible to assume 0 for any factor. Regardless of one's opinion of how intelligent Earthpeople are, we still count as an intelligent species in this galaxy, and the Drake equation is how many civilizations total, not how many other than us. I'll do a little digging and see if I can find a generally accepted range anywhere. The Rev (talk) 03:45, 24 March 2012 (UTC)

Agreed; it makes no sense to assume any term is zero (we exist), nor is it mathematically or scientifically useful as a lower limit--any product of a series of terms containing a zero will of course be zero. Duckyphysics (talk) 21:44, 19 April 2012 (UTC)

Currently, there are no proposed numbers for F_c. For our only example, Earth, our planetary radar is easily detectable, so you could say our detectability is at least (fraction of the time it/they are on) x (fraction of sky covered). This will be a tiny number, since the beams are so narrow, but at least it's > 0. On the upper end, we may already be "communicating" (remember this is really "releases signs of existence into space", not necessarily deliberate communication). I've included some references to this, including one of my own (feel free to remove if you think it inappropriate). This could potentially be a quite large number, but depends on exactly how good you think alien astronomers are. Does anyone know of any published references or calculations along these lines? LouScheffer (talk) 17:33, 28 March 2012 (UTC)

Our radio signals fade out quickly responding to the inverse square law, such that by the time our radio signals from Earth have dissipated so badly that I think they would be difficult or impossible to discriminate from background noise.

Here a are couple of interesting sources.

http://history.nasa.gov/CP-2156/ch5.4.htm

https://briankoberlein.com/2015/02/19/e-t-phone-home/

Kortoso (talk) 20:30, 2 October 2015 (UTC)

This depends on how good you think the aliens telescopes are. While it's hard/impossible for us, here is an argument Aliens CAN watch I Love Lucy stating that with advances that might be practical for an advanced civilization, they might detect our signals and watch our shows. (I'm the author, but it's got 5 cites in the literature, so it's not completely silly.) LouScheffer (talk) 22:27, 2 October 2015 (UTC)

Thank you. interesting. But isn't the Drake equation about whether WE can detect THEIR "I Love Lucy"? And that might vary according to our technology. Probably that factor would need to be updated continuously. Kortoso (talk) 22:41, 2 October 2015 (UTC)

The equation should work for any civilization. Technology implicitly factors into Fc, where it says releases detectable signs of intelligence. So presumably as civilizations get more advanced, and their technology improves, Fc gets bigger and more civilizations can be detected. This is just one of the many factors that is not considered in the basic Drake equation. LouScheffer (talk) 15:09, 3 October 2015 (UTC)

I believe this phrase on this article is now inaccurate: "Also countering this argument is that there is no evidence for abiogenesis occurring more than once on the Earth—that is, all terrestrial life stems from a common origin. If abiogenesis were more common it would be speculated to have occurred more than once on the Earth." According to this link, http://www.digitaltrends.com/lifestyle/nasa-discovers-alien-life-in-california/ NASA found a life form on earth based on arsenic instead of phosphorus and therefore being considered alien and proving that life on earth happened at least twice.

That's old news and it's nothing special as far as the origin of life is concerned. The bacteria is a type of Gammaproteobacteria, which are part of the bacteria domain (aka it shares a common ancestor with apple tree, humans, trouts, E. coli, etc...). Headbomb {talk / contribs / physics / books} 21:55, 15 April 2012 (UTC)

"If abiogenesis were more common it would be speculated to have occurred more than once on the Earth" -- this mostly goes to show that people shouldn't just use Wikipedia to argue off the tops of their heads. It is a common mistake to implicitly assume probabilities are uncorrelated even in cases where they are most probably extremely correlated, but it is a mistake nevertheless. I would go as far as to claim the world would be a better place if at least the people who bother to consider probabilities at all would all bother to think about correlation (in other words, to consider "Bayesian" arguments, as this is known these days) , or at least to make it explicit when they make bold assumptions about absence of correlations. --dab (𒁳) 08:21, 9 November 2012 (UTC)

The sentence as written is certainly true - it has been speculated. See for example Are Aliens Among Us?. However, there are lots of other reasons that the absence now does not mean it did not happen. It could be

• Life only arose once
• More than one arose, but all be one were out-competed
• More than one arose, but earlier ones were wiped out by extinction events
• And so on.

A discussion, or at least a reference to this, would make sense. LouScheffer (talk) 15:17, 9 November 2012 (UTC)

Fl (sorry no subscript) is being given as 1 rather than 0.5, although it's clearly supposed to be a fraction (0.5). Since this changes the outcome value of N from 10 to 5, and I've always heard that the original value of N was 10, I don't want to change this myself. But the numbers we have there right now don't make sense. Ethan Mitchell (talk) 12:17, 17 April 2012 (UTC)

A value of 1 is OK; it's the fraction 1/1. I double checked this with Drake's book and it's what he intended. LouScheffer (talk) 12:50, 12 April 2013 (UTC)

This artical says that Drake equation "is used in the fields of exobiology". This has no base. It is more a "internal tool" of the SETI, not a theory or concept in the fields of exobiology. Is there reference that is is being used in exobiology outside of seti. Srinivasasha (talk) 07:28, 5 May 2012 (UTC)

It's a thought experiment, of course.

22:42, 20 November 2013 (UTC)

One thing that isn't in the article at the moment and I often harp on, is the fact that there is a known lower limit for the Drake Equation N, namely 1. With (at least) many 10s of billions of galaxies and (in time) empirical evidence for the frequency of planets that could produce life, it is more or less certain that on a universal scale that there are others. I know that Drake only addresses this galaxy, but there was a parenthetical comment with universal scope which I redacted for this reason. Lycurgus (talk) 12:41, 2 April 2013 (UTC)

If it was up to me, I would re-write the entire article as it has been taken out of context - either by its main editors or by the popular interpretation. The "equation" is NOT a hypothesis, a theory or a mathematical representation of a physical fact, as in E=mc² , V=d/t , F= G*((m1*m2)/r², etc. Drake originally formulated the equation merely as an agenda for discussion at the Green Bank conference. Just take a look at the actual requirements for planetary habitability and think if this equation addresses any of those factors. You may spend considerable effort invoking values and splitting hairs, but it is not a mathematical tool "used by SETI" or astrobiology. Again, it was meant merely as an agenda for discussion at a conference; it was a rhetorical question — if you will. Cheers, BatteryIncluded (talk) 21:22, 1 April 2013 (UTC)

Thanks BatteryIncluded, the above needed saying. As far as, albeit, my personal experience is concerned the Drake equation was never meant as a hypothesis, but purely as a discussion paper. I regret that I do not have the time to re-write the entire article. Regards and thanks, David J Johnson (talk) 22:26, 1 April 2013 (UTC)

Don't mind me if I do in the next few weeks. I will leave the calculations intact, but will refocus on its usefulness. CHeers, BatteryIncluded (talk) 14:02, 12 April 2013 (UTC)

I created this thread yesterday. Signing now with my named account. Moved illiterate comment from last year out of it. Lycurgus (talk) 12:40, 2 April 2013 (UTC)

• Potentially Malicious Domain: (EXPLOIT, RBN Known Malvertiser IP 22)
• hxxp://www.dailygalaxy.com/
• https://www.virustotal.com/de/url/06f7d7c43c549e5e370a1e64d961bbbb9f4be55c29111d41e93ae9bb66489f23/analysis/1374427632/
• JS/Exploit-Blacole.cw
• https://www.virustotal.com/de/file/5ea1609b649e14ccfd84fec0d7e9d13cb0f885876f0ef5fae0407d23490ecddc/analysis/1374428349/
• https://www.virustotal.com/de/file/192346fedd2cc52353f89fd93fe1da383b6fa8a969c4c27f1fa663d4a40c3ae4/analysis/1374428351/
• https://www.virustotal.com/de/file/2656324fdda8179413cf416bd559e5f6f13864886a6d31907928e6334e64ebfa/analysis/1374428355/
• https://www.virustotal.com/de/file/a9dc933ca440b54c82be1fc9a71df252cf738ca3d908814adc656d9ffcc7c6ed/analysis/1374428365/
• https://www.virustotal.com/de/file/42430671c0fd1332eeb990373a1707da334520e2bae48d1dc9ee6df47b728125/analysis/1374428367/
• https://www.virustotal.com/de/file/8eb65132b441b07193c467814570e2c0959ceff07e35149247f531dde514782f/analysis/1374428377/
• REFERENCE: http://jsunpack.jeek.org/?report=49695ac9748fc84c3953dd8db54a661f52fd8be4
• http://urlquery.net/report.php?id=3902995
• SEE ALSO:
• http://quttera.com/detailed_report/www.dailygalaxy.com
• http://sitecheck.sucuri.net/results/www.dailygalaxy.com
• http://www.UnmaskParasites.com/security-report/?page=www.dailygalaxy.com

--Gary Dee 18:37, 21 July 2013 (UTC)

I am trying to find any reference to the fact that the Drake equation assumes a steady state for most of its factors. But given that the universe is only 13.8 Gy old but some of the factors that would be important like how long life takes to evolve from simple forms to complex forms would be on the order of 1 or 10 Gy (given that we only have one case we can't really be certain if the average value would be anywhere near the value for Earth of ~4Gy) it is unlikely that a steady state has been reached. This would mean that Earth life is among the first to arise (not the first just among the first). For SETI this has the effect that looking in other galaxies is likely to be less productive in that we see other galaxies at a significantly earlier time. Anyway, this is original thought, it just seems so obvious that I thought someone of significance must have already made the comment and so a reference could be found for it but I can't find one. Anyone know of such a reference.Bluetetrahedron (talk) 16:54, 14 October 2013 (UTC)

In brief, it is not a valid, scientific, mathematical equation, but a conversation catalyst. Cheers, BatteryIncluded (talk) 00:18, 21 November 2013 (UTC)

Hi BatteryIncluded: This blog: http://www.sentientdevelopments.com/2007/05/drake-equation-is-obsolete.html implicitly addresses the mismatch between the Drake equation's underlying assumption of a steady-state theory universe and the big-bang universe we observe. It has still not shaken loose of all the steady-state baggage, however, since it assumes that the first stars would have had planets similar to our own (Whereas the low metallicity of the population II stars argues that decent-sized planets would be significantly less likely to form.). This makes the rest of the entry pretty valueless - but the key point that the leftmost three terms of the equation rely on steady-state cosmology and are thus no longer helpful, remains valid. (To be fair the blog recognises it's own shortcomings in this matter.) A similar view is given in this:http://mcirkovic.aob.rs/AB_4_2_p225-231.pdf, so there are enough independent sources to justify adding a note to the main article, I believe. Less clear is if references to attempts to repair these deficiencies can be included. Articles like this: http://www.centauri-dreams.org/?p=28976 are attempting to replace Drake with something more closely tied to observable factors - but I doubt if Wikipedia is ready for that yet. By the way, I believe the idea that you state above, viz: "If it takes something like 12 or 13 GY to generate intelligent life, Earth life would be amongst the first on the scene" (Paraphrasing, sorry), does not hold. I'd guess there'd be enough random variation in the process to move any given star/planet a gigayear or two either side of the average, and there is nothing beyond the Great Silence to indicate we are on the leading edge of that 2-gigayear window. And there are other possible explanations for the Great Silence. Cheers, Nimrod54 (talk) 01:00, 10 May 2014 (UTC)

Hello Nimrod54, I am not against including the equation's assumptions and limits. In fact, I remark that the "equation" is more of a statement than a calculation. Please feel free to edit the article and add the pertinent references. Also please note that the comment above stating that Earth life was among the first to arise in the universe was not written by me but by Bluetetrahedron. CHeers, -BatteryIncluded (talk) 06:13, 10 May 2014 (UTC)

1) Dear user Headcomb, please read the introduction, and the reference you want to delete while you are at it. Even the SETI League states that its usefulness is not in the solving, but the ideas or concepts to contemplate. Conference hosted by NASA: [4]

"So that's the equation. But before we move on, I'll offer a few comments that are evident but somehow not really seen. One is that every factor in the equation appears to the first power. There are no exponentials, no powers, no power laws, no logarithms. Every one is equally important."

You don't need a Ph.D. in physics, mathematics or biology to understand the cited reference and realize the absurdity of all elements being exactly equally important and held in the exact same mathematical relationship e.g.: a simple product of factors.

2) My mentioning -and referencing- the actual mathematical usefulness of the equation is very relevant, especially in the section entitled Usefulness. If you want to argue the mathematical value of specific "factors" please do so in their own sections. Please discuss instead or reverting again.

3) The rules in the world of biology and rules in the world of physics are different. Biology and chemistry, as opposed to physics, do not admit ideological contexts: either the biological phenomena are real, or they are abstract. Biologists cannot say that a process or phenomenon, by being mathematically possible, have to exist forcibly in the real nature. For biologists, the ground of speculations is well noticeable, and biologists specify what is speculative and what is not. Thank you, BatteryIncluded (talk) 01:23, 21 November 2013 (UTC)

Thought experiment. Kortoso (talk) 17:19, 21 November 2013 (UTC)

I put in a very brief entry of Martin Elvis's variation of the Drake equation, as a modification. It didn't seem to merit a section. I put a wiki link to Asteroid mining in the title -- I'm not sure if that's the right way to do it. Also, I put in a quote from NS -- but I didn't put it in quote MARKS, because it's NS paraphrasing what Elvis said. Alanf777 (talk) 21:40, 4 December 2013 (UTC)

Can't stop thinking about His Master's Voice by Stanislaw Lem. How do we know if a signal of extra terrestrial life is a signal of extra terrestrial life or not? What would consist of a signal? Would "life" be as "antropocentric" as we are thinking? How can we even think we can make a guess about how would "life" develop in another planet, never the less, think we could know what it is from a distance? --186.4.19.180 (talk) 01:12, 13 April 2014 (UTC)

Electromagnetic modulation of signals (using technology) is not something that happens spontaneously in nature. BatteryIncluded (talk) 01:21, 13 April 2014 (UTC)

I have removed the following sentence from the section "Usefulness".

The equation assumes that every factor is equally important; there are no exponentials, no powers, no power laws, no logarithms, etc.[1]

The reason is that it was inserted in a way that suggested these facts about the Drake equation were things that affected its usefulness, and perhaps it should be more complicated. The truth is that it has to have this form, because of the rules of probability. It is essentially a long chain of conditional probabilities which arrives at an unconditional probability. As such it cannot contain anything but products of conditional probabilities, as it does. Elroch (talk) 22:54, 23 July 2014 (UTC)

The lead of this article contains a link to "search for extraterrestrial life." At present, that phase is linked to the "search for extraterrestrial life" article with only the acronym ("SETI") appearing in the text. It seems to me that all readers may not know what "SETI" is so I proposed to remove the acronym from the link while leaving it in the text (see this version). Another editor reverted that change, suggesting that readers could click on the link if they didn't know the acronym. True enough, but why not spell out the phrase and avoid the inconvenience? Butwhatdoiknow (talk) 12:19, 15 August 2014 (UTC)

Frankly, I do not see any problem with the original version with the acronym ("SETI") appearing in the text and is properly linked and is no inconvenience. The end use of this type of change is that every link in Wikipedia requires editing to "avoid the inconvenience". This is my final comment on this trivial matter. Butwhatdoiknow please keep comments on article Talk page and not individual editors Talk page. Thank you, David J Johnson (talk) 10:25, 17 August 2014 (UTC)

Since you are a SETI maven it is not surprising that you would not see a problem. But consider this: "It is possible that the reader knows nothing about the subject. so the article needs to explain the subject fully." Thus, editors should "State facts that may be obvious to you, but are not necessarily obvious to the reader. Usually, such a statement will be in the first sentence or two of the article." If you truly believe this change is trivial then why not simply yield to my request to make the change? - Butwhatdoiknow (talk) 16:30, 17 August 2014 (UTC)

No one seems to fault this reasoning so far. I'll give it one more day and then make the change. Butwhatdoiknow (talk) 12:27, 25 August 2014 (UTC)

is here. Please spare me the OR and other various complaints, just propose your own action/draft. Lycurgus (talk) 02:25, 14 November 2015 (UTC)

File it under G. BatteryIncluded (talk) 03:10, 14 November 2015 (UTC)

Is this a thing now? Seeing this a lot, where people use an acronym that really isn't clear from context. I think it's supposed to be a convo starter? The universal gravitation constant doesn't seem to make sense so no idea really. Lycurgus (talk) 03:17, 14 November 2015 (UTC)

I too have not idea what "File it under G" means.

I cleaned this section up. Since it's controversial, I removed everything not directly supported. On the other hand, wikipedia explicitly states unambiguous simple numerical calculations are not OR (since the reader can easily verify) Wikipedia:No original research#Routine calculations. BBC counts as a reliable source, but a more scientific one would be better.

Ack, Lou Scheffer, it looks like others did (edit) too. On "G", the case matters, the lower case thing may be relevant/intended, i.e. general intelligence factor. Lycurgus (talk) 17:52, 14 November 2015 (UTC)

Maybe it is a Canadian thing. I meant file it under "G". I see no point in expanding on speculations and stating the obvious. BatteryIncluded (talk) 18:24, 14 November 2015 (UTC)

Ah. Then let me explain it to you. The equation is itself a speculation, so speculation is the background thing this article is about. An appropriate action on the § in question would be a redact or delete, you apparently favor the latter, others may differ. A redact will advance the cogency of the subject, provide a culminating content for the article, and deletion will satisfy the deletionist impulse and whatever other tendencies are in evidence here. Lycurgus (talk) 18:40, 14 November 2015 (UTC)

Agree it's useful. There's a dividing line between N<1 (we are likely alone) and N>1 (we may find aliens to talk to). It's useful to show that estimates, made by thoughtful people, fall on both sides of this dividing line. LouScheffer (talk) 22:40, 14 November 2015 (UTC)

Also, re-read "Rare Earth" and corrected references to what it actually says. Without regard to other problems that might exist, at least we can quote it fairly. LouScheffer (talk) 22:40, 14 November 2015 (UTC)

I've retitled my draft "Qualitative results" but a better approach would be "Sensitivity analysis" which I would have done with a matching rewrite of the content but for the obvious reason(s). Lycurgus (talk) 07:30, 16 November 2015 (UTC)

Agreed that the equation is largely speculation, but the it's not OUR speculation; it's the speculation of reliable sources. Kortoso (talk) 19:54, 19 November 2015 (UTC)

Anyone thinking that the sun is a normal sun, has rocks in their heads. A normal sun is a M type (red dwarf), population 2 (metal poor), and in a binary or higher system.

The sun is a G type star (2-4% of all stars depending on who you talk to), is a population 1 star (younger and more metal rich), is solitary (does not have extra bodies messing with planetary orbits) and last but not least is considered "stable" as in no solar flares that wipe out any life that may have developed.

If the question was phrased is the sun a normal G type, Population 1, solitary star I can agree with, but a "normal star"? 100% Nope! 71.174.135.36 (talk) 20:23, 6 February 2016 (UTC)

I think you may misunderstand what's going on here. I don't see anyone arguing with you about whether the statements you're making are actually true or not. I personally don't have an opinion. So, convincing people that you're right about this supposition is really a waste of time. What you need to do is cite reliable sources that say that the Drake equation is optimistic because the Sun isn't a typical star. It has to say exactly that. Citing a source that says that the Sun is not typical, and then citing a different source that says that the Drake equation is optimistic, won't do it because combining those statements is the WP:OriginalResearch (OR) that everybody is talking about in edit summaries. That would be okay if you were writing a research paper to demonstrate original ideas, or if you were writing a paper to submit to a scientific journal...but Wikipedia is a fundamentally different writing project, and all original thinking is discouraged (because most editors aren't experts). This may seem very unusual and may be different from any kind of writing you've been involved with before. Geogene (talk) 23:36, 9 February 2016 (UTC)

Both cites are based on numbers from studies/articles on the Drake equation and show much lower values then the ones usually used. What is your problem with citing studies/articles showing that?

That it's OR unless a reliable source has the same conclusions that you make from plugging the numbers into the equation. Also, http://www.solstation.com/habitable.htm is a WP:SPS (self-published source) that appears not to meet the reliability standards. Geogene (talk) 00:04, 10 February 2016 (UTC)

More bull! Solstation "About us" states "SolStation.com provides information and software for those interested in astronomy and in writing, education, or entertainments related to science or speculative fiction." Why do you believe it is nor reliable? and I noticed you haven't said anything about the research paper also cited, which BTW cites any number of other research papers.

RE: self published sites. If Hillary Clinton has a self published website, where her policies are listed can that site be cited. You betcha!71.174.135.36 (talk) 00:26, 10 February 2016 (UTC)

The Fair use legal doctrine states that small portions of copyrighted works can be used. If they can't then nobody can cite anything. 71.174.135.36 (talk) 23:57, 9 February 2016 (UTC)

Wikipedia's own COPYVIO guidelines are more stringent than the minimum standards required by law, all content must comply with a CC 3.0 license. Wikipedia content is ostensibly free for others to re-use for any purpose, including commercial ones. There are also plagiarism issues as well. Any copy-paste from a source has to be identified explicitly as a quotation, and these have to be kept to an absolute minimum. Geogene (talk) 00:04, 10 February 2016 (UTC)

Are you saying that wikipedia does not use verbatim cites from copyrighted sources? What crack are you on?71.174.135.36 (talk) 00:19, 10 February 2016 (UTC)

We try to avoid unneeded quoting. Only if the quote itself is notable, ie other reliable sources use it too, would it be worth reproducing. Graeme Bartlett (talk) 02:26, 10 February 2016 (UTC)

In other works quotes from copyrighted works can be used and the objection from Geogene was BS.71.174.135.36 (talk) 16:53, 10 February 2016 (UTC)

From the policy at WP:COPYVIO. If a contributor has already been clearly warned of copyright infringement but carried on, they may be reported for administrator attention to the administrators' incidents noticeboard. Contributors who repeatedly post copyrighted material despite appropriate warning may be blocked from editing by any administrator to prevent further problems. Contributors who have extensively violated copyright policy by uploading many copyrighted files or placing copyrighted text into numerous articles may be blocked without warning for the protection of the project, pending satisfactory assurances that infringement will not continue. You have already been warned. Geogene (talk) 19:31, 10 February 2016 (UTC)

Recently additions to the lead paragraph include a very new reference (October 2016, Mahecta). I think this not a good addition, since it states a very controversial position as if was agreed on. The lead paragraph is where an interested reader should see the most-agreed on part of the subject, the portion that has had serious discussion and debate, and that almost any scholar would agree on. For this article, or any new analysis, until it has multiple cites in the scientific literature, or discussion in the popular literature, it's probably pre-mature to include it in the article at all, and certainly not in the lead paragraph. And the idea here, that the Earth is a unique site for life, most certainly has no consensus. LouScheffer (talk) 14:57, 26 October 2016 (UTC)

Also, the article was added by an editor with the same name as the author. Maybe just an amazing coincidence? Isambard Kingdom (talk) 15:09, 26 October 2016 (UTC)

In this field in particular, passing peer review is not a guarantee of correctness - it just indicates that the argument has no obvious internal inconsistency. For example, the Webb book cited in the article has 75(!) different explanations for the Fermi Paradox, closely related to the Drake Equation. Most of these are supported by peer reviewed articles. Saying any one of these is correct is beyond what peer review can accomplish. More data is needed, and until then we cannot assert any conclusion to be correct. This is particularly true in the lead paragraph, for one of the few agreements in the field is that all arguments are speculative. LouScheffer (talk) 17:26, 26 October 2016 (UTC)

Totally agree with the comments above. This is controversial and not ready for an encyclopedia. Additionally, at first look it also appears to be self promotion?. David J Johnson (talk) 17:57, 26 October 2016 (UTC)

I agree that mention of this in the lead is inappropriate. However, it is not the role of WP editors to assert a conclusion one way or the other on correctness. WP:DUE says, "Neutrality requires that each article or other page in the mainspace fairly represent all significant viewpoints that have been published by reliable sources, in proportion to the prominence of each viewpoint in the published, reliable sources." WP:IRS says, "Many Wikipedia articles rely on scholarly material. When available, academic and peer-reviewed publications, scholarly monographs, and textbooks are usually the most reliable sources. However, [...]". This particular source and the viewpoint it puts forth might or might not meet the prominence criteria for inclusion in this article. It seems to me that the viewpoint described in this source falls into the Rare Earth hypothesis (REH) category (or would, if hypotheses were categorized here). The REH is mentioned in a number of the cases described in the Current estimates section of this article, and the source at issue here is mentioned in the WP REH article. It seems to me that the REH ought to be more prominently mentioned in this article, perhaps in an expansion of the intro to the Current estimates section. Wtmitchell (talk) (earlier Boracay Bill) 22:06, 26 October 2016 (UTC)

Disagree with Wtmitchell. I agree with LouScheffer, peer review just means that a paper is "good enough" to be presented to a community of trained skeptics that have a broad education in that particular field. They know enough to discuss, debate, and perhaps disagree with the conclusions. It's not an epistemological badge that means the paper should be presented to a lay audience that may not have any knowledge of the field at all. That's inherently misleading. Of course I'm not saying we shouldn't use peer reviewed papers, we just need to be sure that they reflect either scientific consensus in the field or a sufficiently large minority viewpoint. A single paper doesn't do that in a subject area that has been around this long. If the Drake equation were a concept that had just been invented a year ago, that would probably be different (because we'd be sampling a much smaller pool of accumulated knowledge). If it were a literature review, completely uncontroversial, or proven to be highly influential, that might also be different. Geogene (talk) 22:27, 26 October 2016 (UTC)

The book "Rare Earth" has about 700 cites, according to Google Scholar. This paper has 0, so far, which makes sense since it's extremely new. So even in the "Earth alone has intelligent life" camp, due weight would not put a lot of emphasis on this article, at least as of yet. LouScheffer (talk) 23:02, 26 October 2016 (UTC)

@Geogene: - WP:IRS#Some types of sources says:

Many Wikipedia articles rely on scholarly material. When available, academic and peer-reviewed publications, scholarly monographs, and textbooks are usually the most reliable sources. However, some scholarly material may be outdated, in competition with alternative theories, or controversial within the relevant field. Try to cite present scholarly consensus when available, recognizing that this is often absent. Reliable non-academic sources may also be used in articles about scholarly issues, particularly material from high-quality mainstream publications. Deciding which sources are appropriate depends on context. Material should be attributed in-text where sources disagree.

WP:IRS#Scholarship contains further clarification which may be relevant in the case of the source at issue. I imagine that you are familiar with all of that, and requote it here for the benefit of anyone who is not. I would point out, however, that WP editors in their editorial persona lack credentialed competence for membership in that "community of trained skeptics" which you describe. I was not arguing for or against citing the source at issue here, I was commenting on the arguments being made for its exclusion. Wtmitchell (talk) (earlier Boracay Bill) 21:58, 27 October 2016 (UTC)

@Wtmitchell: You pinged me, and in your edit summary you included my username (in scare quotes). Yet, I don't know what I said that the above is supposed to address. It's irrelevant to my arguments. Geogene (talk) 22:53, 27 October 2016 (UTC)

If you think my comments are irrlelvant to your arguments, ignore the ping. I don't understand your point re scare quotes, but the visible mention of your username above is an artifact of the {{ping}} template. Wtmitchell (talk) (earlier who are Boracay Bill) 02:31, 28 October 2016 (UTC)

[unindenting for readability]: I would argue against the point that "WP editors in their editorial persona lack credentialed competence for membership in that 'community of trained skeptics'". This is one of the few scientific fields where any interested person can read all the relevant arguments, appreciate all the relevant factors, and form an opinion as good as any expert. (Or conversely, experts have little additional credibility in this area.) Not every editor has this level of knowledge, of course, but a fair number of the more involved editors seem quite familiar with the field. Plus at least some of the editors here *do* have formal credentials in the field (peer reviewed papers, book editorship, academic positions, etc.) and are members in good standing of the community of trained skeptics. LouScheffer (talk) 00:07, 28 October 2016 (UTC)

Some persons who are WP editors may be recognized topical experts and/or members in good standing of the "community of trained skeptics" in some venues outside of WP. However, that does not carry over into their editorial persona on WP. An unsupported assertion by a WP editor on WP may (arguably should) be regarded as an WP:OR assertion by an unreliable source. Wtmitchell (talk) (earlier Boracay Bill) 03:17, 28 October 2016 (UTC)

Why is the BBC considered a reliable source if PBS is not? Why is io9 considered a RS if PBS isn't? Some astrophysicist commentating on Drake Equation research on and edited PBS segment isn't RS but some news weblog like io9 is? Do people delete things without examining the content of the sources by claiming it isn't RS for "I don't like it" reasons ? This article uses BBC sources which is just another TV network, and io9 which is just a gawker website -- 65.94.171.217 (talk) 04:43, 27 October 2016 (UTC)

I suspect that remover just thought that youtube is an unreliable source without checking who the author was. PBS may offer reliable content, but videos put out by broadcasters are not necessarily the best sources. Graeme Bartlett (talk) 03:39, 28 October 2016 (UTC)

If that is the case, that's very sloppy editing. To the remover: NASA, NSF, and most major news outlets publish some content on Youtube. -- 65.94.171.217 (talk) 03:56, 29 October 2016 (UTC)

The PBS show page http://www.pbs.org/show/pbs-space-time/ has a link : Visit The Official Website

https://www.youtube.com/channel/UC7_gcs09iThXybpVgjHZ_7g .. which is where you can view archived shows. This is therefore as RS as PBS. Alanf777 (talk) 21:16, 29 October 2016 (UTC)

As of October 2016 that estimate was at least two trillion.Daniel pehoushek (talk) 00:56, 23 March 2017 (UTC)

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The equation appears in the introduction and all of the factors are explained there, too. Why, then, is there another section that reiterates those things but adds nothing to the article? Everyone seems to have strong opinions about the DE itself and everything associated with it. But does anyone have a strong opinion about where it should be presented in the article? Would you mind if we removed one of the two instances? 203.184.42.209 (talk) 02:36, 15 July 2018 (UTC)

Removed from the lead, and moved the equation section to the top of the body to compensate (so readers don't have to dig for it). The lead should summarize the body, but not necessarily duplicate it. But I'm curious about what others think. Geogene (talk) 05:02, 15 July 2018 (UTC)

I agree to remove it from the lede. The intro is for a worded summary of the article. Rowan Forest (talk) 12:40, 15 July 2018 (UTC)

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