Wikipedia talk:WikiProject Physics/Archive September 2009

Discussion about html formatted style for simple tex formatted equations

The many people who have the (I believe default) setting for equation rendering as using html for simple equations, have been seeing the equations as being too small relative to the ping equivalents. This is fairly simple to fix in the style file; although it may cause other problems, in particular with inline math equations. (Those should be removed in general principle anyway.)

I started a discussion about changing the font size for the span.texhtml element that is used for the html rendered equations at MediaWiki talk:Common.css about this issue.

• Current rendering of a simple equation: ${\displaystyle e^{i\pi }+1=0}$.
• Forced to render with png using \,: ${\displaystyle e^{i\pi }+1=0\,}$.
• One proposed solution changing style: ${\displaystyle e^{i\pi }+1=0}$.

I probably should have discussed it here and in WP:math or in WP:village pump (technical) but I got a little ahead of myself I am afraid. In any case I think it is worth discussing and hope to get your input.

Dry ice

Still need help with the 'Speed of light' article.

One editor has been pushing his idiosyncratic views on the 1983 definition of the speed of light for some months now. I have had enough edit warring, sometimes with little support from other physicists active on the page. His edits on the subject are sometimes blatant nonsense and other times more subtle but a concerted effort is needed to ensure the standard mainstream view of the subject is presented in this article.

Please help. Martin Hogbin (talk) 18:48, 2 September 2009 (UTC)

I think it would be helpful to discuss this with Brews again (he asked me to get involved on my talk page a few days ago, but I was too busy then), but this time with one new rule: Citing from sources is not allowed. So, we have to discuss from first principles and explain everything when challenged from first principles. This removes the freedom to interpret what some source says in some arbitrary way. Because most contributors are experts in physics, this can work. If someone is not an expert and makes mistakes he/she will be disqualified more easily (precisely because you can't hide behind sources). Count Iblis (talk) 20:33, 2 September 2009 (UTC)

Arguing from first principles has no place in wikipedia; we're about reliable sources. What's not OK is for Brews to push an interpretation that he has no source for; he has sources for bits and pieces of info, all of which is acceptable content, I think, but not for his idiosyncratic synthesis from those sources. This is just business as usual for Brews, as the history of discussions of him on this project talk page amply demonstrates. I have been pushing Martin to not remove things that are backed up by sources, and Brews to not add stuff without explicit support in sources, and if they would both comply I think the problem would sort itself out. There are still lots of other details that people will fight over, but it will be easier without these two dominating it the article and talk page. Dicklyon (talk) 03:23, 3 September 2009 (UTC)

I defy Dicklyon (or anyone else) to come up with a single piece of "idiosyncratic synthesis" from the presentation at User:Brews ohare/Speed of light (Example). It is very simple textbook logic based upon the basic BIPM definitions, on the level of grade school geometry. Dicklyon's characterization is pure yellow journalism unless supported by some factual example that could be discussed. This kind of harangue and band leading appears contrived only to shut down any exchange. Brews ohare (talk) 06:28, 3 September 2009 (UTC)

No, Brews what you write there is just a logical fallacy based on your incorrect preconceptions and lack of understanding of modern physics most notably general relativity. The physical interpretation of your example is simply that the spacetime metric has changed between the first and second measurements. (Our that the first measurement was inaccurate due to inaccuracies in our knowledge of the actual length of the meter.) Any change in the 'actual speed of light' is always physically equivalent to change in the metric. And a change in the metric is the only known possible physical cause of a change in the 'actual' speed of light. One thing that is completely clear from GR is that logically speaking the units for space and time should be identical. In such units the actual speed of light is always exactly 1 (which is the result of the signature of the metric, which cannot vary continuously since it is a discrete property.) The 1983 decision just complied with this physical reality and added a numerical factor between the units to make them backwards compatible with the previous definition. In the end your argument just goes to show your lack of physical sophistication. (TimothyRias (talk) 09:59, 3 September 2009 (UTC))

TimothyRias: The argument presented does not depend in any way upon GR. There is nothing in the hypothetical nature of an improved time measurement that requires a change in the spacetime metric. The actual physical speed of light is not hypothesized to change in any way. Please read User:Brews ohare/Speed of light (Example) again. If you see anything in there that requires GR, please point it out by some direct quote. Brews ohare (talk) 14:56, 3 September 2009 (UTC)

Sorry, I indeed slightly misread what you comparing to what. The gist stays the same though. The correct physical conclusion of your hypothetical experimental outcome is that (in SI units) the wavelength of the atomic transition you used to define the "actual distance between A&B" must have changed between the experiments. (or alternatively that the previous determination of this wave length was inaccurate, but I'm assuming that that possibility is excluded by the precision of the measurements.)

As an exercise for you, replace every occurrence of metre in your example with lightsecond and every occurance of the number 299 792 458 by 1. It is not hard to see that you must come to the same conclusion as I have with the original, namely that the wavelength of the atomic transition expressed in lightseconds has changed. (TimothyRias (talk) 15:39, 3 September 2009 (UTC))

Hi TimothyRias: It seems to me that you are trying to come up with a mechanism that might lead to a changed measurement of the time-of-transit. That might be a useful exercise: I believe many of the discussions with Einstein took this kind of turn - answering a question like "could that hypothetical actually arise". However, I'm just focusing upon improvement in measurement technique without going into how that might happen. My take is that an improvement in measurement technique could occur, and its exact origin is not a concern for the purposes of the argument.

The argument in short form is this: suppose the separation of A&B is measured in wavelengths and the time-of-transit is measured in seconds. Then the speed of light is # of wavelengths/ transit time. If the measured time is measured more carefully, a different, more accurate, speed is found. However, regardless of any of this, the speed of light in SI units is still the defined exact value 299 792 458 m/s. Inasmuch as one speed changes with the measurement improvement, and the other does not change, the two items are not the same thing. One is an approximate measurement of the real speed of light c and the other is only a convention, a defined exact conversion factor c₀ = 299 792 458 m/s. Consequently, a statement like "the fundamental speed of light is a constant of nature with the exact value of 299 792 458 m/s" is, simply, nonsense. In some sense the number 299 792 458 m/s is a charade, because you know how many metres it is per sec but you don't know what the metre is without knowing the real speed of light (it's a tautology). It is a bit much to present a reader with a tautology without explanation in the Intro and pass it off as though it had objective content ("the exact value of this fundamental constant of nature is 299 792 458 m/s"). Do you agree?

I have placed an argument at User:Brews ohare/Speed of light (Example). It does have sources, but I believe they can be ignored for the purposes of this discussion, because all that is needed is velocity = distance/time. If there is a sourced point that requires some first-principles support, that certainly can be looked at. That discussion page can be used to present comments. Brews ohare (talk) 20:48, 2 September 2009 (UTC)

I understand your point, but that's not specific to that definition of c: it applies to any way of defining any unit of measurement. When the second was defined as 1/86,400 of the mean solar day, the length of the mean solar day was 86,400 seconds both in 1900 and in 1956, despite the real length of it being greater in 1956 than in 1900, because the seconds had become larger, too, as a consequence of the definition; a precise measurement of some duration which had remained exactly the same would have yielded a smaller number of seconds in 1956 than in 1900. The mass of the International Prototype Kilogram is 1000 grams both now and one century ago, despite its real mass is (believed to) be greater now than one century ago, because the grams have become larger, too, as a consequence of the definition; yadda yadda yadda. Now, of course, to solve these problems it makes sense to choose as a standard something which varies as little as possible, so we have chosen something for which there's damn strong evidence that it cannot change—namely the speed of light. --___A. di M. 23:51, 2 September 2009 (UTC)

A. di M.: So, if I understand you, since this is my point, which you say is universally true, you agree with the point that the real speed of light is logically and not simply numerically different (perhaps numerically different because of measurement errors or some such) from the SI conversion factor?? So, in this instance of the SI units we are in agreement that the real speed of light is logically different from the SI units conversion factor?? Because, if you do agree, then one cannot say (as was said in speed of light in some versions) that the real speed of light is defined to be exactly 299,792,458 m/s inasmuch as they are two different things, and only the conversion factor is exactly defined. Brews ohare (talk) 03:04, 3 September 2009 (UTC)

That point has been explained to Brews repeatedly—at Talk:Speed of light, on my talk page, at User talk:Dicklyon (under several headings; Brews started 6 discussion topics on Dick's talk page)—but he either can't or won't get it. While speculation on someone else's state of mind is, well, speculation, I think that Brews can't get around the apparent (but not real) logical tautology of the value of c being expressed in terms of a metre that is defined by the speed of light itself. It would be a real tautology, or arbitrary, if the time it took light to get from A to B varied, and the metre fluctuated accordingly. But, as you point out, the constancy of the speed of light is a principal reason that it became the yardstick metre-stick—Finell (Talk) 02:31, 3 September 2009 (UTC)

Finell: Several points have been made by A. di M; which point specifically do you agree with? Are you saying you agree with A. di M that the real speed of light is logically and not just numerically different from the SI units conversion factor?? BTW whatever the validity of using the speed of light as a reference, the reasons for that validity are not the discussion here. The discussion here is whether the real speed of light is logically and not just numerically different (due some accident of measurement say) from the SI units conversion factor. Brews ohare (talk) 03:04, 3 September 2009 (UTC)

Please do not feed the troll; this argument can never end. The only way it matters is if Brews can show a reliable source that make a distinction between the "conversion factor" and the "real physical speed of light". So far, he hasn't shown us one. Dicklyon (talk) 03:26, 3 September 2009 (UTC)

Dicklyon: I'd like a brief answer to these questions:

1. Is it your position that you don't care one way or another whether the argument at User:Brews ohare/Speed of light (Example) is correct?
2. Or, is it your position that the argument at User:Brews ohare/Speed of light (Example) is invalid. If that is your view I'd appreciate being shown the error involved, as the argument seems very simple and unlikely to have any hidden missteps. I assure you that if the argument is wrong, I'll go away with apologies.
3. And, is it your view that the argument at User:Brews ohare/Speed of light (Example) (whatever its validity) exhibits so complex a sequence of reasoning that a normal individual would require a source for reassurance about the conclusion?
4. Or do you simply want the subject to go away? If so, why? In particular, is it simply because of the pack of hounds baying over this subject? Personally, I think you can handle it. Brews ohare (talk) 06:08, 3 September 2009 (UTC)

I didn't state anything like that. It'd be like stating that the mass of the International Prototipe Kilogram "is logically and not just numerically different from" one kilogram, or as if someone in the 1950s had stated that the length of the mean solar day "is logically and not just numerically different from" 86,400 seconds; the only difference is that these two do change, whereas the speed of light doesn't. Please don't misquote me, at least. --___A. di M. 11:01, 3 September 2009 (UTC)

A. di M.: I wasn't aiming to misquote you, I just couldn't understand you. Maybe now I do. I agree that the real speed of light doesn't change and the physical kg does. However, the distinction between the concept of kg and the realization of the kg is not the same kind of distinction made in User:Brews ohare/Speed of light (Example) between the SI units defined conversion factor c₀ = 299 792 458 m/s and the real speed of light. The conversion factor is used to change length measurement to be equivalent to a time-of-transit measurement, thereby eliminating an independent length from the SI units. Consequently, any length measurement in SI units is really a time measurement. So my point could be said this way: a measured speed of light requires both a length and a time measurement and thus is fundamentally different from the defined exact SI conversion factor c₀ = 299 792 458 m/s. The constancy and exactitude of this conversion factor is not a reflection of the underlying constancy of the real speed of light; it is a logical mathematical consequence of using a defined conversion factor that places measurement of the speed of light outside the scope of the SI units by converting all length measurements to comparisons of transit times with 1/299 792 458 s. Brews ohare (talk) 15:45, 3 September 2009 (UTC)

Brews: Since you aren't even trying to learn, I'll stop trying to teach you. The misunderstanding is yours. —Finell (Talk) 04:47, 3 September 2009 (UTC)

Finell, I am afraid that you have not sorted out what the issues are, nevermind understanding the arguments. Your comments so far are on matters peripheral to the discussion. So pack up your attitude. Brews ohare (talk) 06:08, 3 September 2009 (UTC)

Oh, please, not from you! Where do you get the chutzpah to condend that everyone who disagrees with you (which is almost everyone on this subject), including real physicists, is wrong, and that you have managed to discern a fundamental flaw in the foundations of physics that has eluded the best minds in physics for 26 years (actually longer, because the redefinition of the metre was in the works for years before 1983). Instead of impugning everyone else's motives and comprehension level, please try some self-examination for a change. —Finell (Talk) 13:07, 3 September 2009 (UTC)

Finell, I do not impugn your motives or ability to comprehend; I say only that you have not yet comprehended User:Brews ohare/Speed of light (Example). Please quote any remark there that discusses or employs a "fundamental flaw in the foundations of physics". Or, any point in User:Brews ohare/Speed of light (Example) where I "contend real physicists are wrong". Nothing remotely like that is in the article. Brews ohare (talk) 14:59, 3 September 2009 (UTC)

Just to sum up my comment above: Brews, the logically fallacy you are committing in your example is the assumption that the distance between A and B doesn't change overtime. The modern physical paradigm is that distances between points are constantly changing. From that point of view, the physical conclusion of you hypothetical experimental outcome is that indeed the distance between A and B has changed. (TimothyRias (talk) 10:07, 3 September 2009 (UTC))

TimothyRias: I wonder if you are reading reading User:Brews ohare/Speed of light (Example) or something else. There is no "logical fallacy" in assuming two points A & B are a fixed distance apart for the sake of discussion. No part of an improved time measurement requires GR and spacetime variation. It is only about man's abilities to measure. I think we got off on the wrong foot here. Brews ohare (talk) 15:02, 3 September 2009 (UTC)

Tim, your point is true, but Brews' error is more fundamental and exists even if we assume that the distance is constant. The original measurement of the distance is, by the SI definitions, logically dependent on the speed of light. The 2nd measurement -- the one where the light is actually fired across the gap -- amounts to just a recalibration of the original yardstick used to measure the distance. Tombe could never get his head around this, and it seems Brews can't either. --Michael C. Price ^talk 11:40, 3 September 2009 (UTC)

Michael C. Price: Tim's point does not bear upon User:Brews ohare/Speed of light (Example) at all. Your understanding of the set up is partly correct. Yes, recalibration of the metre occurs. That is not only accepted but part of the discussion. The other part of the discussion is an interferometric measurement of the length, which does not depend upon the definition of the metre. If improvement in clocks occur (which has happened over and over again historically), then the metre recalibrates as it must so the "speed of light" used in the SI units will stay the same: c₀ = 299 792 458 m/s. On the other hand, the separation of A&B in wavelengths does not change, so the speed of light determine by dividing the spacing in wavelengths by the newly measured time will lead to a newly measured speed of light in wavelengths/s. Do you have a problem with that?? Brews ohare (talk) 15:03, 3 September 2009 (UTC)

Yes, I have a problem with The ... measurement of the length, which does not depend upon the definition of the metre. I'm afraid it does depend on the definition of the metre. Unless you choose to record the result in non-SI units, in which case you merely postpone the moment until convert to metric, which you have to do because you are trying to measure light speed in metres/second. It's as simple and inevitable and as inescapable as that. Your two measurements are measuring the same thing twice. --Michael C. Price ^talk 16:54, 3 September 2009 (UTC)

Michael C. Price : We are at cross-purposes here. One measurement uses wavelenghts/s, and is completely separate from the metre. It is not necessary to convert this measurement to m/s because it need not be compared with the measurement in m/s. All that is needed is a comparison of the earlier and the later speeds, both in wavelenghts/s to see that a change has occurred. On the other hand, in the SI units no change occurs: the speed is always c₀ = 299 792 458 m/s. That difference in behavior is the focus here. It means that the speed in wavelengths/s is an actual measurement of the fundamental speed of light c, while the other is simply an arbitrary conversion factor with a defined exact value beyond measurement's ability to alter. Brews ohare (talk) 17:22, 3 September 2009 (UTC)

in the SI units no change occurs Wrong. If c changed then the metre would change. --Michael C. Price ^talk 20:03, 3 September 2009 (UTC)

Michael C. Price: Hey, cut me some slack here. What is meant is: in SI units no change occurs in the speed, which is always c₀ = 299 792 458 m/s. That should be clear from context, I hope. Take another look. That I'm aware that the metre changes also is very clearly stated in User:Brews ohare/Speed of light (Example). And just to be clear, it isn't c that changes, its the measured value of transit time. Brews ohare (talk) 21:20, 3 September 2009 (UTC)

You emphasized no in "no change". If now you decide you don't mean it, fair enough. --Michael C. Price ^talk 22:17, 3 September 2009 (UTC)

I think implicit in Brews argument is that both measurements are done with high enough precision, to be able to conclude that the two measurements give a different result. Interpreting the measurement as a recalibration of the yardstick, implies that it must have changed in length. If you assume that it didn't, recalibration doesn't make any sense. In essence the two mistakes are the same. I was hoping that my explanation over was more appealing to Brews' physical intuition. (TimothyRias (talk) 11:59, 3 September 2009 (UTC))

Yes, one has to assume measurements of adequate precision. The term recalibration here must be understood in the context of the BIPM definition: c₀ = 299 792 458 m/s must remain constant despite any change in measurement technique; hence, changes in measurement technique affect the metre, not c₀ = 299 792 458 m/s. Do we agree on that point? Brews ohare (talk) 15:05, 3 September 2009 (UTC)

And the discussion goes on below

I am pretty certain that you guys know a lot more about physics than I do but it strikes me that some are being a tad unfair to ohare. I hope good faith can be assumed ... ohare clearly believes there is a problem with the wording of the SoL article and are doing their utmost to gain support for changes in order to help readers (bolding to emphasis that ohare is not on an ego trip but seeks what we all seek ... a better article). Those who do not assume good faith can stop reading now.

Unfortunately for ohare (and maybe us all) support is not forthcoming but they won't give up, indeed the level of verbosity grows by the day ... having said that, Hogbin can be fairly verbose and obdurate as well so it is not all one-sided. What worries me is that the debate is becoming an arguement and a slightly unseemly one at that.

I also have a difficulty with some of the wording of the SoL article. In earlier discussions I have called it the 'circularity difficulty'. In a nutshell it is this: The metre is defined in relation to the SoL and the second. Therefore to state that the speed of light is an exact 299.. m/s is a tautology, it is a circular argument because it is true only in a self-defining way. Saying that the speed of light is exactly 299.. m/s doesn't actually tell us anything about the SoL unless we add into the equation some other definition of the metre, unrelated to the SoL, to give us a scale reference. I am not a stupid person and if I think like this there will be others who do also ... I am thinking of readers, for whom wp is designed (not for editors). I may be wrong, but I think this circularity is at the heart of ohare's point. However, if I am right it should be possible to attack the problem calmly together and work out a form of words that clarifies the article for the reader rather than fighting corners in a macho way.

I hope I have made my points clearly ... I would be interested in hearing other views. Abtract (talk) 12:24, 3 September 2009 (UTC)

Abtract: Thank you for your tone and comments. Yes, the tautology underlies my concern. User:Brews ohare/Speed of light (Example) is aimed only at showing that the speed of light as measured in units with an independent length and the SI units "speed of light" c₀ = 299 792 458 m/s are different concepts. The first is indeed a measured speed and the second is a defined "conversion factor". Consequently statements like the "the real fundamental speed of light has a defined exact value of 299 792 458 m/s" is pure baloney. Brews ohare (talk) 15:08, 3 September 2009 (UTC)

I'm a sympathetic to the confusion this tautology can cause. I've made a minor edit to the lead to stress that c taking a fixed value is a peculiarity of the SI system of units. The tautology itself should not be hard to understand. The definition of units will always have to take some physical value as a reference, with as a result that the value of that quantity becoming fixed. In some cases this is more intuative then in others. Nobody is surprised by the fact that measuring charge in elementary charges leads to the charge of the electron being exactly -1 e. Similarly, if we were to adopt the lightsecond as our official measure of length very few people would be surprised that the speed of light is then exactly 1 lightsecond per second, that would be tautologically true. The 1983 decision to redefine the metre as ~1/299,792,458 lightsecond, of course, has exactly the same effect, but it is less intuitive since 299,792,458 is such an odd number. (TimothyRias (talk) 13:04, 3 September 2009 (UTC))

I take it that these remarks do not bear upon User:Brews ohare/Speed of light (Example) , but are intended as a response to Abtract. Brews ohare (talk) 15:08, 3 September 2009 (UTC)

I think many people are contributing to the problem by talking about seconds getting longer and lengths changing and moving to "better" units of measurement that "don't change as much" (those are scare quotes, not quoting quotes). These are unfortunate linguistic choices that are just going to deepen Brews ohare's confusion.

When we measure continuous quantities we're always measuring the ratio of one to another. It's usually more convenient if one of the two quantities is a standard yardstick of some kind, for roughly the same reason that a cash economy functions better than a barter economy, but the standard yardsticks are defined by a ratio with some measurable quantity, so when you measure with respect to a standard yardstick you're ultimately measuring a ratio of two physical quantities by proxy. What does it mean if the ratio changes? You might say "it means one or both of the quantities has changed but we don't know which", but that would be wrong, because changed with respect to what? You're implicitly comparing to an absolute, true and mathematical unit that doesn't exist. Only the ratios are real. You can measure the speed of light in wavelengths of some atomic spectral line per periods of some other spectral line, as Brews ohare wants to do in his essay, but if that changes it doesn't mean that the speed of light has changed, it means that the ratio formed from those three quantities has changed. Which of the three is responsible? Again, meaningless. So how do we decide to call some units more fundamental than others? By looking at lots of ratios. The international prototype kilogram is a good example. The mass ratio of the IPK to various nations' copies has deviated noticeably from 1 since the copies were made, but the ratios between the national copies have varied relatively little. Occam's razor suggests that we would be better off assuming that other masses have varied less with respect to some weighted average of the national kilograms than with respect to the international kilogram, making the national kilograms a better unit standard. Officially the IPK is right by definition and the national kilograms are wrong, but people are not blind to the implications of these ratios. Nor would they be blind to a systematic variation in many measured quantities that disappeared when a different definition of the meter was adopted. They would adopt that new definition, and if the ratio formed from the speed of light, the second, and the new meter was found to vary then they would probably describe that as variation in the speed of light (though it's debatable whether they should). The current standard meter was chosen because it correlates well with other empirical yardsticks and it's measurable to high precision. If at some point another yardstick satisfies those criteria better then the definition will be changed again. It's not the final definition, just the current one.

"The Nature of Time" by Julian Barbour is a good read on this subject. -- BenRG (talk) 14:09, 3 September 2009 (UTC)

BenRG: Your comment is more an essay than a soundbite, so I may miss some points. In broad outline you are concerned with the general nature of standards, how they are used, and why they are adopted. However, I am unclear how your remarks apply to the article User:Brews ohare/Speed of light (Example). Perhaps you mean to say that general confusion over standards has infected the discussion of this article? Brews ohare (talk) 15:28, 3 September 2009 (UTC)

Abtract, that's true of any way of defining any unit. When the litre was defined as the volume occupied by one kilogram of water at standard pressure and at the temperature at which it has the greatest density, “[s]aying that the” density of water was “exactly” one kilogram per litre didn't “actually tell us anything about the” density of water “unless we add[ed] into the equation some other definition of the” litre, “unrelated to the” density of water, “to give us a scale reference.” (The litre has since been re-defined as exactly one cubic decimetre.) --___A. di M. 14:47, 3 September 2009 (UTC)

I am going to suggest something heretical. There are way more then enough editors on speed of light and has been for over a month. It hasn't worked. Why do you think that adding more editors, if they even exist, will work any better?

Maybe it is time for a tactical retreat. There are a number of stalled articles that with a little attention can be greatly improved with far less hassle. Wouldn't it be great to be able to edit articles and have people appreciate your edit again? Just as important, Brews is smart enough to figure out the problem on his own but is stubborn enough that he won't as long as there are people pushing back against him.

Let it be for a little. It wouldn't be the first article with silliness; nor is it even the worst problem with that article. (To me it does not separate c from v enough for the average reader and even implies in some places that the space-time constant depends on v.) TStein (talk) 15:04, 3 September 2009 (UTC)

Thanks for the complement TStein. I don't think, however, that my thoughts are clouded by the need to reply to others here. I do think that the simple discussion at User:Brews ohare/Speed of light (Example) is amazing in its ability to provoke wild response to things that actually are not said there or even discussed there. Many imagine what it says, but not many read what it says.

It would be desirable if editors would quote items from User:Brews ohare/Speed of light (Example) verbatim that they disagree with, and then make their point, rather than gaining some broad view of the article (quite possibly jumping to conclusions) and arguing about things that are not said.

Nonetheless, your advice may be wise. Brews ohare (talk) 15:13, 3 September 2009 (UTC)

Ok, so the point you make is that if nothing really physically changes (e.g. no exotic physics changes, like e.g. the photon gaining a mass in vacuum etc.) except that we would be able to measure time more accurately, we could find that the time it takes for light to move from one fixed point to another fixed point could have changed. It could become less. But this would lead us assigning a smaller distance in meters between the two fixed points, simply because the way we define the meter.

My reply is that before we made the more accurate measurement, the intended definition of the meter would be what we later would have found. So, we would later correct the distance between the two points in terms of meters and that would be due to a recalibration of the meter due to a more accurate measurements of the length standard. Count Iblis (talk) 15:44, 3 September 2009 (UTC)

Count Iblis: The first paragraph I understand and agree with. The second paragraph? Could you rephrase that please? What is the "intended definition"? Are you agreeing or disagreeing, and with what? Maybe the BIPM definition helps here: “length is obtained from the measured time t, using the relation ℓ = c_o·t and the value of the speed of light in vacuum c₀ = 299 792 458 m/s” . Brews ohare (talk) 16:01, 3 September 2009 (UTC)

I don't think there is any real disagreement here either. You have a situation where the speed of light was wrongly measured to be lower than it actually is and that will lead to a recalibration of the meter, because one uses the speed of light to define the length standard. Count Iblis (talk) 17:19, 3 September 2009 (UTC)

I'm happy that there is not disagreement at this point, but that leaves open whether you agree with the view that a measurement of the fundamental speed of light c using units like wavelengths/s that can and does change with experiment is to be distinguished from an exactly defined conversion factor c₀ = 299 792 458 m/s that measurement cannot change. As I said to Tim above: In some sense the number 299 792 458 m/s is a charade, because you know how many metres it is per sec but you don't know what the metre is without knowing the real speed of light (it's a tautology). It is a bit much to present a reader with a tautology without explanation in the Intro and pass it off as though it had objective content ("the exact value of this fundamental constant of nature is 299 792 458 m/s"). Do you agree?Brews ohare (talk) 17:32, 3 September 2009 (UTC)

How do you propose we state the speed of light? "The speed of light is roughly 299792458 times 1650763.73 wavelengths of this spectral line of Kr-86 divided by 9192631770 periods of this spectral line of Cs-133"? Multiplying those numbers together, that simplifies to "The speed of light is roughly 53835 times the wavelength of this spectral line divided by the period of that spectral line". 53835 is the ratio of the frequencies of the spectral lines in question. How is that not circular? How is it "real"? (That's the point I was trying to make in my essay.) -- BenRG (talk) 18:04, 3 September 2009 (UTC)

Not that anyone will listen to what I suggest, eh? I think I'm happy so long as no weird statements are made to the effect that c = 299 792 458 m/s is an exact value for a fundamental constant of nature. Brews ohare (talk) 18:13, 3 September 2009 (UTC)

Sorry, but since that statement is true (and reliably sourced) we would be remiss not to include it.--Michael C. Price ^talk 19:57, 3 September 2009 (UTC)

We could say that the the meter is defined such that the speed of light is exactly 299 792 458 meters per second. If we want to say something about the speed of light that does not depend on this arbitrary choice, we could write that that light travels a long a null geodesic. If you choose arbitrary units for space and time, then given the geometry of space time expressed in these units, along the space-time trajectory of a photon, we have that ds^2 = 0. Count Iblis (talk) 20:39, 3 September 2009 (UTC)

I don't know what the mystique is about having an exact speed for the speed of light in the lead. We all know that no property of nature is known exactly, and that includes the real physical speed of light. All that happens in the SI units is that the error bar has been buried in the units instead of in the nine figure number. A normal person will be unaware of the buried error bar, and would take the nine figure number as somehow all there was to it. The whole mess of unraveling this business of burying the error bar can't go into the intro.

So the only justification for introducing true but misleading info in the lead is if you subscribe to the superstition that exact values for measurable entities is OK. Another approach is to follow Abstract in some measure and say something like "In 1972 the speed of light was established as c = 299 792 458 ± 1.4 m/s. In 1983 the definition of the metre was changed from a length to a time-of-flight and the conversion factor was chosen to be c_o = 299 792 458 m/s." The simplest approach, however, is to drop the word "exact" and defer the subject to the later section "Speed of light by definition". Brews ohare (talk) 20:56, 3 September 2009 (UTC)

You wrote: "We all know that no property of nature is known exactly, and that includes the real physical speed of light." and I disagree here. We know that the ratio between the circumference and the diameter of a perfect circle is exactly pi. Of course, such statements comes with some assumptions in small print, in this case that the geometry is exactly Euclidean. Another example: The temperature of water/ice/vapor at the triple point is exactly 273.16 K. Of course, this statement defines the Kelvin scale.

In case of the speed of light, if you look at how it appears in the fundamental laws of physics, then you see that it is a trivial scaling constant that can be set to 1. The fact that it is considered to be a constant of Nature is only for historical reasons. We could measure the speed of light before we had the relevant theories like relativity.

In general, we can always play this game. Take some undisputed exact equation of physics, say, dU = dq - dW, and then replace the invisible factors of 1 by constants. If we do this only for dq, we get dU = r dq - dW. Then assign to heat the new dimension "heat" (do we really know that heat energy is the same as energy in the form of work? Let's be agnostic about that). I can then define the constant r to be exactly 4.184 Joule/Heat. In practice this means that the "Heat" can be identified with the thermochemical calorie.

So far this is all theory. But now, suppose that for metrological reasons it is more convenient (or more accurate) to have separate standard to measure heat. Then, the constant r would no longer have an exact value, but it would be an empirical dimensionful constant constant with an error bar. If later it would be more convenient to measure heat in another way, one could define r to have some fixed value. And theorists would, of course, always prefer to use natural units in which r = 1. Count Iblis (talk) 23:28, 3 September 2009 (UTC)

Count Iblis: First, the "no known property of nature is known exactly." Let's put this in context. For example, we know the fine structure constant is :

${\displaystyle \alpha =\ {\frac {e^{2}}{\hbar c\ 4\pi \varepsilon _{0}}}\ }$

exactly, but we don't know its value exactly because it is made up of measurable parameters that can only be observed with error bars. The speed of light is in that category: it cannot be deduced from logic as can π or e. That is what I meant: we all know that c cannot be known exactly. It has to be measured, and in 1972 or thereabouts it was measured as 299 792 458 ± 1.4 m/s using the pre-1983 metre. That error bar did not "go away" simply because of a change in the definition of units. Rather, we buried the error bar in the uncertainty of the metre. Do you agree? Brews ohare (talk) 00:27, 4 September 2009 (UTC)

I would say that in your expression for alpha, from a purely theoretical physics point of view, you can consider hbar and c and the epsilon_0 to be irrelevant scaling constants. The square of the electric charge in these natural units is the coupling strength of electrons to photons and this is the fine structure constant alpha, which can indeed be measured directly by measuring the magnetic moment of the electron and comparing the measured value to the QED prediction. The reason why, say, hbar is not a defined constant is purely for metrological technical reasons, not because of fundamental physics reasons.

If you have some physical artifacts representing time intervals ad lengths that cannot be computed from first principles, and you take them to be your length and time standard, then in those units the speed of light will have error bars. That was the situation before 1983. In 1983 we decided to do away with the ad hoc physical artifact for length and instead define the speed of light to have some fixed value. Count Iblis (talk) 01:06, 4 September 2009 (UTC)

Count Iblis: I take it that you do still maintain the SI units conversion factor 299...m/s is an exact constant of nature, analogous somehow to mathematical constants like π & e, and not as Jespersen, and Wheeler, and Sydenham say,"a conversion factor whose value is fixed and arbitrary"? (my italics). I guess we can say "what's in a name", but this approach buries the error bar of measurement in the metre, instead of displaying it explicitly, e.g. as 299...± 1.4 m/s as was done pre-1983. So today we have 299 ... m/s as an "exact" speed of light, but we don't know what the metre is exactly. Do you agree? Brews ohare (talk) 05:46, 4 September 2009 (UTC)

We didn't know what the metre was previously either as that we defined in terms of wavelengths and that also has some experimntal error associated with it. But, in theory, you can imagine having some artifact and defining the length of that thing to be exactly one metre. Then, relative to that hypothetical situation, we don't know what a meter exactly is. If we were to reproduce the same length standard ,many tmes over using the defintion in terms of the speed of light and we could directly measur ethe length difference using some other technique suitable for measuring very small distances, then we would find a statistical spread. But, as I wrote, this is also the case for the old definition of the metre.

What is of more fundamental importance, I think, is that the speed of light is what you can call an irrelevant scaling constant, just like the factor 1 in front of dq in the equation dU = dq - dW. While you can say that this factor of 1 has a fundamental importance, as it defines the equivalence between heat and other forms of energy, it is still a trivial constant. The speed of light has a similar status. This is why it is possible to define units to give it some arbitrary fixed value. Count Iblis (talk) 14:51, 4 September 2009 (UTC)

Count Iblis: I'll take at face value your analysis of natural units, or whatever is the exact technical name for this topic. However, the 1983 definition seems to involve a fundamental change, in replacing length measurements with time measurements. The speed of light in SI units is c₀ = 299 792 458 m/s regardless of measurement improvements, or indeed regardless of whatever the real speed of light might be. The metre just adjusts to make this so. That doesn't seem to me to make the actual speed of light a trivial matter, but it does place the actual speed of light outside the SI system of units. Do we agree? Brews ohare (talk) 15:23, 4 September 2009 (UTC)

I think you have a point only in an "agnostic" setting, where we forget about the current theoretical motivations behind all this. If you consider theories in which lengths and time intervals are not related as we think they are via the speed of light and that they arise independenly from each other in some way, then you could perhaps have a fundamental length standard and a separate fundamental time standard and then perhaps it is not the case that the speed of light is constant under all imaginable circumstances.

In the current theoretical paradigm there exists a fundamental space-time interval ds^2 = c^2 dt^2 - dx^2 (in one dimension) which is the fundamental invariant quantity and it realtes time intervals to dnstances the relation being a matter of the choice of units which fixes the speed of light c. Then although you can have a physical time standard and another physical length standard, if they are "good standards" they will always be related to each other, unless the fundamental paradigm of the metric space-time structure breaks down.

So, it is like having two length standard that according to theory should be equivement. Now, these to different length standards may involve compeltely different experimental techniques, so the ratio is then predicted to be some constant by theory, but experiments will always have some error. Then, defining the two physical quantities to be the same up to a factor (or equivalently assinging a exact number to the conversion factor), is a matter of declaring one's faith in the theory. Count Iblis (talk) 18:49, 5 September 2009 (UTC)

But the fine structure constant is not measured my measuring its factors and multiplying them together; if you do that, you obtain much larger error bars than you actually could, because the errors are not independent. The main cause of uncertainty in the value of e is that we don't exactly know how much a coulomb is, and that is because we don't exactly know how much a kilogram is. The main cause of uncertainty in the value of ħ is that we don't exactly know how much a joule-second is, and that is because we don't exactly know how much a kilogram is. These mostly cancel out. Indeed, the value of e has a relative uncertainty of 2.5 x 10^-8, that of ħ one of 5.0 x 10^-8, and their correlation coefficient is 0.9999; the relative uncertainty of α is 6.8 x 10^-10.[1] --___A. di M. 16:46, 4 September 2009 (UTC)

Brews, I read your little page and I agree except in using the term "conversion factor". When you use a term like "conversion factor" you're invoking in people's minds a set of ideas and examples, and these are mostly sorta different and misleading. Just replace the term "SI conversion factor speed of light" with "numerical value of the speed of light in meters per second" and I totally agree with what you wrote. Yes, the constancy of the speed of light is different from the constancy of "the numerical value of the speed of light in meters per second".

I don't know whether there's some rigorous and universal and exact definition of the term "conversion factor", and whether what you're saying qualifies, but whether or not it's accurate to call it a conversion factor I definitely think it's unhelpful to call it a conversion factor in this aspect.

[There's a different issue, which is whether the speed of light in special relativity is a "conversion factor" between space-units and time-units. It is, I definitely agree with this. But this is unrelated to the number 299792458 and unrelated to what Brews is talking about and what I'm talking about here.] --Steve (talk) 21:26, 3 September 2009 (UTC)

Hi Steve. Thanks. Good points. I also noticed that the use of "conversion factor" occurs in special relativity, where it makes sense. I am not clear what the connotations of "conversion factor" are in the context of converting a transit time to a length. The term is used in this context by Jespersen, by Wheeler and by Sydenham. That makes it easy to find sources for the idea that use exactly the same words, a sine qua non for the likes of Dicklyon. I am afraid that your term "numerical value of the speed of light in meters per second" isn't sufficiently different from what might result from a measurement, where here we are dealing with a defined convention. Any more thoughts?? Brews ohare (talk) 21:37, 3 September 2009 (UTC)

Brews asked that we respond to his article User:Brews ohare/Speed of light (Example). That seems fair enough. The problem is with the first paragraphs:

Take two points A & B. Suppose they are some fixed distance apart. (The actual distance between A & B can be measured, for example, using interferometry to determine the separation in units of wavelengths of some atomic transition). Suppose (hypothetically) measurement skills increase and the transit time of light between points A & B is measured to be a time t_AB that is a slightly shorter time than previously measured with older technique.

In that case the real speed of light as determined from the relation real speed = (actual distance between A & B)/ t_AB will be measured as larger, because points A & B have not changed position, and the time-of-transit t_AB has shortened.

The problem is that the statement:

(The actual distance between A & B can be measured, for example, using interferometry to determine the separation in units of wavelengths of some atomic transition)

is false. You are assuming a measurement of the 'actual distance' A to B that is more precise then ct. If we had a way to do that we would be using it instead. There is no measurement technique that can measure this 'actual distance' in meters other then ct or something that is calibrated to ct. Trying to measure the actual distance in any way separate from ct results in a number with a slightly different unit then the actual meter = ct_1m; ie the number will have meaning only to the precision that your personal definition of the meter agrees with ct_1m. Measuring a more precise value for t_AB does not give a more precise value of c; rather it gives a more precise value of the actual distance (in meters).

Prove to me that 'the actual distance between A & B can be measured' (in meters) any method independent of ct_1m and I will join you in this fight.TStein (talk) 21:53, 3 September 2009 (UTC)

TStein: You are right, if we could measure distances more accurately, we would do that. The switch to times-of-transit was predicated upon the greater accuracy of time measurements vis-à-vis length measurements. But this discussion is not about metrology decisions and available technology.

For the purpose of this discussion we may assume hypothetically that the distance measurement using interferometry or some as yet to be discovered technique is super-accurate, because this is a thought experiment, not related to what technology can do today. All we need for the discussion is to establish that length measurements independent of time measurements are doable, that is measurements like counting fringes that do not depend upon c t. And of course, the pre-1983 measurements of c that led to 299 792 458 ± 1.4 m/s are an existence proof that such independent measurements of length are possible, because that is where this number came from. It also is not necessary that this length be measured in metres. In fact the argument is based upon two measurements, one in metres, and one in units defined independent of c such as wavelengths of an atomic transition, determined e.g. by counting fringes.Brews ohare (talk) 00:12, 4 September 2009 (UTC)

Martin started this discussion item to ask for help from knowledgable physicists at Speed of light. He did not do it to open a new front to recreate the battle bewteen Brews ohare and his intransagent arguments in favor of his own untennable thesis against (almost) everoyne else giving the same responses that others have already given, in addition to the 8 or so other talk pages where this same battle has been fought, always resulting in a consensus of almost everyone that Brews' thesis if fundamentally incorrect (not merely flawed in particulars) and that Brews' sources do not support his position. This has been going on for most of 2009, but with increasing intensity for the past 2 or 3 months. The fact the Brews, in good faith, genuinely believes that he is right, and that everyone else, including the physics cabal, is wrong, is not sufficient to justify the commotion that Brews causes, the time of other editors that he takes up, or the frustration that he has caused at Speed of light and the resulting beakdown of collaborative editing and discussion there. He has had more than a full hearing of his ideas, many times over, but refuses to accept the consensus of editors who are better informed than the is. To quote Dicklyon, it is time to stop feeding this troll. —Finell (Talk) 00:46, 4 September 2009 (UTC)

Finell: I thought the discussion here was progressing and matters were becoming clearer. Certainly this is not a forum for your incorrect progress report, intemperate language, and uninvited advice. Brews ohare (talk) 05:30, 4 September 2009 (UTC)

moot point

The reason the meter-poorly-defined crowd is wrong is simple: WP:CRYSTAL. The consensus is, right now, that the speed of light is a constant in all reference frames and that is why the meter can be defined in terms of it and some arbitrary definition of time (it doesn't matter if the standard for the second changes because shorter or longer standard seconds just correspond to proportionally shorter or longer standard meters). If the speed of light is not a constant, then modifications to our definitions will have to be made. However, this has not happened, and it is not Wikipedia's place to point out this.

ScienceApologist (talk) 00:49, 4 September 2009 (UTC)

Yes, if the speed of light changes the metre will change. However, its definition will remain the same. The number c₀ = 299 792 458 m/s will remain the same. That is why I don't find it helpful to call the unchangeable numerical quantity 299 792 458 m/s the "exact speed of light" because it doesn't change when the real speed of light changes. However, this number 299 792 458 m/s represents a different speed when the speed of light changes because the metre changes. Brews ohare (talk) 05:57, 4 September 2009 (UTC)

He is saying that you are wrong about this, Brews, as has everyone else who, unlike you, understands the subject. You see a problem that the value of c "doesn't change when the real speed of light changes". However, as you have acknowledged, the real speed of light doesn't change, but is constant, for you to say otherwise in contrary to physics and to all experimental observation. So the problem that you imagine does not exist. Please stop spewing this pseudo-scientific nonsense all over Wikipedia. Please stop acting like the common crank. Please stick to subjects that you actually understand, like (presumably) electronic circuits and devices and making beautiful circuit diagrams and graphs, and stay away from theoretical physics. If nothing else, consider WP:SNOWBALL and just give up your futile crusade. Isn't it terribly frustrating for you not to be able to persuade other Wikipedians that what you keep saying, over and over, makes any sense? Wouldn't you be happier in a community that would be more receptive to your speculations, like Crankopedia or the web cite where David Tombe, retired science teacher, self-publishes his pseudo-science essays? —Finell (Talk) 09:14, 4 September 2009 (UTC)

Note now that Brews has finally "got it", he insists that he merely wants to clear up the "misleading" language. He'll never admit that he was just plain wrong.--Michael C. Price ^talk 10:51, 4 September 2009 (UTC)

Finell: You are simply fuming about nothing. Get help. Brews ohare (talk) 14:27, 4 September 2009 (UTC)

It seems to me that Finnel should be blocked for his insulting comments here. Where are the wikipedia police? I think you guys are wrong, wrong, wrong, and being nasty doesn't make you right. Wikipedia needs to ban some of you for being insulting uncivil and just plain mean. The word crank should never be used here or in any other discssion to describe anothers persons viewpoint. It is a value judgement and reveals that the person using it has no valid argument to offer. So instead of being uncivil and nasty why dont you simply realise that Brews is right in what he is saying. I doubt you guys are informed enough to edit any physics articles from what I read here.72.64.63.140 (talk) 13:16, 4 September 2009 (UTC)

Thank you David for that. By Brews being right I assume you refer to his latest position statement:

"Yes, if the speed of light changes the metre will change. However, its definition will remain the same. The number c0 = 299 792 458 m/s will remain the same."

Everybody here agrees that this is correct.--Michael C. Price ^talk 13:30, 4 September 2009 (UTC)

Michael C. Price: Well, I'm glad you and I agree. It seems optimistic to think Finell and many others agree. Brews ohare (talk) 14:27, 4 September 2009 (UTC)

No, I think you'll find they all agree, since this what they've been trying to explain to you all along. --Michael C. Price ^talk 15:43, 4 September 2009 (UTC)

Arbitration request filed

Admin Jehochman filed a request for arbitration concerning these disputes: Wikipedia:Arbitration/Requests/Case#Speed_of_light. Participants in this discussion, in addition to those named as parties, may wish to comment. In addition, your continued help in improving the Speed_of_light article and in talk page discussions is still very welcome. —Finell (Talk) 23:04, 6 September 2009 (UTC)

Particle in a box

Hi everyone,

I've started a rewrite of the particle in a box/infinite quantum well article. I've tried to make the text more readable for the layperson, I've added some new images and I've been working on the references. I'd appreciate it if other editors could look over the article too. Have I messed anything up? Should any additional topics be covered (e.g. comparison with classical results, comparison with finite quantum wells, comparison with free particles, optical absorption, symmetry selection rules etc...)? Should anything be cut out? Should there be more (or less) mathematical formality? Can anything be explained better? Would any other illustrations be useful? This should be quite a straightforward article and it would be great if we could push it to GA/FA. Papa November (talk) 19:01, 3 September 2009 (UTC)

More dubious references being added.

Remember this thread that spawned this RFC? Well, it seems at least one of the socks is active again. Casimir9999 (talk · contribs) has recently added references to Spinor, Light cone, Femtotechnology, Carbon nanofoam, Carbon nanobud, White hole, and Zero-point energy. If the reference added to Femtotechnology is any guide, these could use third-party vetting ASAP.

The other known socks seem to be inactive. I'm not claiming bad faith; just stating that the references are unlikely to be of uniformly good quality, and so should be checked. --Christopher Thomas (talk) 04:50, 4 September 2009 (UTC)

Edwin Power

Just created this article. If you know anything about the guy, feel free to expand. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 18:10, 4 September 2009 (UTC)

Excellent article. Could be a nice little GA. Xxanthippe (talk) 22:32, 5 September 2009 (UTC).

Missing (highly-cited) physics & astronomy related journals

From the latest WP:JCW dump:

• Earth and Planetary Science Letters
• Planetary and Space Science
• Space Science Reviews
• Platinum Metals Review
• Physikalische Zeitschrift
• Advances in Space Research
• Geochimica et Cosmochimica Acta
• The Minor Planet Bulletin
• Reviews in Mineralogy and Geochemistry
• Journal of Volcanology and Geothermal Research

There's not a lot of them, so I took the liberty of reaching a bit wider than I normally would have. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 23:57, 7 September 2009 (UTC)

Hilbert space up for GA

Hilbert space has been nominated for GA. Note that anybody can do the GA review, this does not require an special privileges. I don't have time to do the GA review this week, but maybe somebody in this project will. In any case I think a crucial point will be the accessibility to non-mathematicians and whether it covers the non-mathematical aspects of the subject sufficiently. For either point it would be good to have the opinion of (less mathematical minded) Wp:phys members. (TimothyRias (talk) 11:58, 8 September 2009 (UTC))

As the one who nominated the article to begin with, I second the above. The input of members of WikiProject Physics will be especially valuable in assessing the article and/or bringing it up to the GA specifications. Sławomir Biały (talk) 17:05, 8 September 2009 (UTC)

Beta function disambiguation.

Looking for feedback at talk:Beta_function#Disambiguation. Thanks. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 02:30, 9 September 2009 (UTC)

Digit grouping style (notice of discussion)

In case anyone is interested, a discussion about digit grouping styles is taking place at Village Pump (policy), related to this question:

On Wikipedia, should the selection of digit grouping styles depend upon regional and topical conventions used in the English language?

Please refer to that page for details and discussion. TheFeds 03:58, 9 September 2009 (UTC)

Speed of light arbitration opened

It would be very helpful if editors who were not involved in the disputes over Speed of light that led to the arbitration gave evidence at Wikipedia:Arbitration/Requests/Case/Speed of light/Evidence, especially to give the arbitrators some impartial guidance about the physics. I include the few editors who recently came to Speed of light and made helpful edits and comments, but who weren't participants in the long term battles, as uninvolved editors. Thanks. —Finell (Talk) 20:54, 9 September 2009 (UTC)

Can someone comment on Modified Bragg diffraction in quasicrystals?

I am asking for knowledgeable comment on that article here because I have no real knowledge on the subject, however the article leaves me perplexed because its main and practically only author, User:Bourdillona is most probably the same guy on whose papers the article is based (4 out of 6 references are of his own, among those there is a self-published book and and apparently a self-published article). The author seems to have academic credentials, but I would sleep better with someone knowledgeable having a look into it, just to be sure it is not biased or a fringe theory. Thanks! --Cyclopia (talk) 08:43, 10 September 2009 (UTC)

It's an interesting idea, and certainly sounds like it could be valid. My main concerns are that it's an author pushing their own work (which means the reference list may give undue weight to their work rather than other researchers), and that this may or may not be accepted by the rest of the optics community (if it's too early, it doesn't belong in Wikipedia). I'd suggest politely contacting the author, saying that while you value their contributions, referencing of one's own works is heavily frowned upon due to WP:COI, and asking their help building a broader reference base. Phrase this as asking for their expert advice in finding such references, and they'll almost certainly be very helpful (we researchers can be vain that way). Similarly, if nobody else has written about this approach/result, couch its exclusion in terms of "we look forward to including this in Wikipedia when enough citations from other researchers have accumulated" (i.e., it's not a rejection, it's a deferred acceptance). I hope this advice is useful to you! --Christopher Thomas (talk) 15:05, 10 September 2009 (UTC)

Thanks a lot for your opinion, it agrees with mine and your advice on how to handle the situation tactfully is very helpful. I'd say that there is nothing invalid in principle in carefully referencing one's own works (I too did, I admit), taking maybe care of WP:UNDUE problems, but another thing is not simply citing but building almost a whole article on that. I will try to contact the author as tactfully as possible, and let's see. Only problem I see is I am not a physicist but a biologist (I just stumbled there looking at the quasicrystal article) and maybe I am not the best person to do that. --Cyclopia (talk) 16:25, 10 September 2009 (UTC)

I was thinking, maybe a good idea is proposing a merge with quasicrystal, which would probably make sense nonetheless? --Cyclopia (talk) 16:28, 10 September 2009 (UTC)

There's a small section in quasicrystal that deals with it already - inserted by the same author. I can see it being a standalone article, or being merged into both quasicrystal and bragg diffraction, but without references to works by different authors, it has to be treated as a minority scientific viewpoint with regards to weight in the latter two articles. --Christopher Thomas (talk) 16:54, 10 September 2009 (UTC)

A Google search finds some additional sources for the topic. [2] [3] I'm not a specialist, but they do not appear to be fringe stuff. I'd suggest to contact the editor and simply propose to add more references to the article.   Cs32en  23:51, 13 September 2009 (UTC)

I'll take a more detailed look at these on Monday, and ping the editor in question. Per above, they're probably the best qualified to search for this sort of thing, and will likely be willing to help if approached correctly. --Christopher Thomas (talk) 01:49, 14 September 2009 (UTC)

Fusion power

Could someone spare a moment to review these three edits at Fusion power (edit | talk | history | protect | delete | links | watch | logs | views)? More eyes would be useful (further actions on my part would constitute edit-warring). --Christopher Thomas (talk) 19:08, 10 September 2009 (UTC)

Talk:Fusion power could still use a few more eyes, if anyone has time to spare. --Christopher Thomas (talk) 00:24, 13 September 2009 (UTC)

User:Casimir9999

I just don't know how to handle the matter of User:Casimir9999. This editor's only contributions so far have been to add "references" to articles. Most of the time these references look like rubbish that was dug up by a keyword search in google. I've gotten rid of many of the references that were obvious junk, overt pseudoscience, and so forth. But sometimes I have trouble assessing the quality of the sources. And I'd really like to assume good faith, but my sense is that this pattern of editing is not beneficial to the project. There has already been an RfC that simply died for lack of sufficient interest over at Wikipedia:Requests for comment/Uruk2008. Could someone here please look into the matter. Thanks, Sławomir Biały (talk) 06:25, 11 September 2009 (UTC)

I noticed this a few days ago (see above). If I'm reading WP:DR correctly - and it's quite possible I'm missing something - what we're supposed to do now is a) ask Casimir9999 to stop adding random references, explaining WP:RS and related policies to them, b) report their actions somewhere like WP:WQA (we're not at the admin-jackboots stage yet), and if they persist in adding demonstrably bad references after repeatedly being asked not to, slap on warning templates and report them at AN/I if they persist. I've had enough exposure to drama for the time being, so someone else can handle this (otherwise I would have talked with them at the time I made the post linked above). --Christopher Thomas (talk) 06:51, 11 September 2009 (UTC)

I have posted a note on the editor's talk page. This case was rejected at AN/I twice before because it is very difficult to establish that this behavior is disruptive enough to warrant administrator intervention. At any rate, should someone go through the recent edits to vet the added references? Or should the editor be reverted wholesale? I am not confident with the editor's ability to understand the sources he is adding, but in many cases I myself don't understand the subject well enough to make that assessment. Sławomir Biały (talk) 12:13, 11 September 2009 (UTC)

I checked (and removed) one link -- it was a dead link.--Michael C. Price ^talk 13:26, 11 September 2009 (UTC)

Ladder Paradox

Hello - we have an ongoing discussion at the Ladder paradox page and would appreciate any input. The question is whether the "man falling into a grate variation" should be kept, improved, or discarded. PAR (talk) 22:43, 13 September 2009 (UTC)

Has anyone searched for secondary sources on this issue yet?  Cs32en  23:39, 13 September 2009 (UTC)

List of CERN experiments

See Wikipedia:Bot requests/Archive 30#List of CERN experiments for more info and give feedback. Especially, are there more than NA and WA experiments? Headbomb {^ταλκ_{κοντριβς} – WP Physics} 17:51, 14 September 2009 (UTC)

Accelerating universe and Holographic principle

A single user (User:Systemizer) is trying to add information to these articles about recent research which has been featured in popular magazines. Unfortunately, the additions are very poorly sourced and potentially misguided. Could you track down the original research papers and help with resolving this issue? --Issuesixty soulsgreat (talk) 20:55, 14 September 2009 (UTC)

Particle in a box

Hi everyone,

I've started a rewrite of the particle in a box/infinite quantum well article. I've tried to make the text more readable for the layperson, I've added some new images and I've been working on the references. I'd appreciate it if other editors could look over the article too. Have I messed anything up? Should any additional topics be covered (e.g. comparison with classical results, comparison with finite quantum wells, comparison with free particles, optical absorption, symmetry selection rules etc...)? Should anything be cut out? Should there be more (or less) mathematical formality? Can anything be explained better? Would any other illustrations be useful? This should be quite a straightforward article and it would be great if we could push it to GA/FA. Papa November (talk) 19:01, 3 September 2009 (UTC)

More dubious references being added.

Remember this thread that spawned this RFC? Well, it seems at least one of the socks is active again. Casimir9999 (talk · contribs) has recently added references to Spinor, Light cone, Femtotechnology, Carbon nanofoam, Carbon nanobud, White hole, and Zero-point energy. If the reference added to Femtotechnology is any guide, these could use third-party vetting ASAP.

The other known socks seem to be inactive. I'm not claiming bad faith; just stating that the references are unlikely to be of uniformly good quality, and so should be checked. --Christopher Thomas (talk) 04:50, 4 September 2009 (UTC)

New behavioral guideline: Wikipedia:Editing scientific articles

Based on my experience on wikipedia so far, I think this is necessary. Usually editors stick to what I wrote, because of their experience or they intuitively understand that this is the correct way to behave, and you don't get problems. Often, when problems do happen that's because we intitially don't stick to these rules. But usually, as soon as we see problems arise, we stick to these rules and then the problems get solved.

In rare cases, you can have editors who do not have any idea that one should stick to these rules. This then very often leads to problems. If the editor goes unopposed, you are at big risk of getting a flawed article. I have seen the examples of the flawed articles on thermodynamics which I corrected last year. This was a systematic issue because many articles were affected. The editors of these articles (some of whom were experts), simply failed to be sceptical about the validity of their own edits. I think this inherent scepticism is necessary, so I included that in the guidline.

When in rare cases we get into a dispute with an editor who doesn't stick to these rules, we typically get severe problems. To our frustration the existing wiki rules are not really helpful and can even be used against you. I had such an experience a few days ago, see the above section about the problmes in the entropy page and also the discussion about my conduct here.

Also some here my remember the problems we had with editor Ed Gerck who had flawed understanding of special relativity. It took a lot of time to refute him. He was constantly claiming that he was right because he could directly quote some (out of context) text from a book that seemed to support his point, while the reason why he was wrong required some working knowledge of special relativity and you could not really produce a direct counter quote to refute him. So, detailed discusons were necessary and as soon as he was willng to engage in such discussions, problems started to be solved, although he bailed out in the end. His insistance on sticking to the wiki rules was part of the problem, not part of the solution. Count Iblis (talk) 14:48, 13 August 2009 (UTC)

I'll give feedback soon. I'm not super confortable with the wording, especially #2. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 15:30, 13 August 2009 (UTC)

Lots of scientific articles are lousy and full of incorrect information. We all know that. The solution is to have competent and knowledgeable people edit them and make them better. If someone is knowledgeable and motivated, they will write a by-and-large good and accurate article, with or without reading Count Iblis's essay. If there is no one knowledgeable (or at all) trying to fix up a lousy article, it won't get fixed, with or without Count Iblis's essay.

Count Iblis, inevitable in how Wikipedia works is that there will be a lot of lousy and incorrect articles. Writing essays and petitioning for rule-changes within wikipedia will not change that, in my opinion. If you want to change that, you need to change the whole model, and go to Encyclopedia Brittanica, or maybe Citizendium or something. If you want Wikipedia articles to be better, make them better yourself, and tell your scientific friends to do the same. And meanwhile, keep telling everyone you know not to trust a Wikipedia article to be correct. I do. :-) --Steve (talk) 18:57, 13 August 2009 (UTC)

I think that the totality of the wiki rules and the guidlines that currently exist put experts too much on the defensive. E.g., Instead of me spending a lot of time in these sorts of arguments, I could simply point to some guidlines that make the same point. Count Iblis (talk) 16:25, 14 August 2009 (UTC)

Sorry Steve, I must agree with Count Iblis on this. I've just wasted a chunk of time removing some excerable rubbish -- less defensive guidelines would be very welcome and greatly assist the job. I found quoting chapter and verse of some existing guidelines very helpful; more science-friendly guidelines would make the job much easier. We are not talking about root-and-branch reforms, just a few carefully crafted reforms here and there.--Michael C. Price ^talk 17:55, 14 August 2009 (UTC)

I am not quite sure what policies you are trying to implement here. Is this what you are trying to say?

Scientific quotations, particularly from textbooks, are more vulnerable to be taken out of context because the necessary conditions for their validity are explained many pages even chapters earlier. Further, unlike many other disciplines, the validity of a scientific statement is NOT based on authority, but on how well it agrees with experiment and well established theories. Therefore:

1. Editors must include the necessary conditions of validity for all non-trivial statements that are not always true. It is the editors responsibility to check and double check this.
2. When resolving conflicts, authoritative sources are not sufficient by themselves; they must be supported by proof that their range of validity coincides with the conflicting statement. In some cases both statements may be true under different circumstances.
3. Conflicts should be resolved primarily through agreement with well established first principles and not authoritative quotations. Discussing topics from well established first principles is not original research.

TStein (talk) 20:00, 14 August 2009 (UTC)

I am not saying that I agree or disagree with these statements. I need to think about it before committing one way or the other. I am only trying to make sense of what you are saying first. If I am wrong please correct it. TStein (talk) 20:00, 14 August 2009 (UTC)

I'm not sure what I think yet, either, but your encapsulation above looks pretty good. #1 is merely a wish, although a good one at that, albeit unenforceable. Points 2 & 3 are the meat.

I've made a few more comments over at the essay's talk page.--Michael C. Price ^talk 20:45, 14 August 2009 (UTC)

Yes, this is a more neatly formulated version of my points :) Count Iblis (talk) 22:50, 14 August 2009 (UTC)

I don't really like the text of the current proposal – although I support the idea behind it – as it seems to insist on editors having common sense. We cannot legislate (i.e. force upon third parties) common sense, which is not that common after all… French Wikipedia has come up with the idea of a "Charter" (maybe better translated as a "Code of Practice") to which editors can sign up: perhaps we could try something similar here. I'm willing to translate the French if there is an interest. Physchim62 (talk) 23:27, 14 August 2009 (UTC)

Surely the point about common sense is the other way around. The guideline does not require common sense, it is encapsulating it. That's the function of the guidelines.

I'm sure the French charter has some good ideas, so please do translate it. --Michael C. Price ^talk 06:47, 15 August 2009 (UTC)

I don't think the "scientific" field in wikipedia is as special as Count Iblis thinks. Editing is basically flaky everywhere, and we just have to do the best we can to improve the quality, fight off the nonsense, and not piss off too many people in the process. Our luck varies, and depends on our patience and style. What baffles me is how this opinion of his is to be reconciled with his defense of Brews ohare's editing in the discussions above. Dicklyon (talk) 02:41, 15 August 2009 (UTC)

I agree with Count Iblis' sentiment, and is in fact the route that I have generally used in the past. I think it is nice to have something like this up, especially when dealing with "authority", as pseudoscience can so easily be infused with a few sources. I also do see how it can work to help editors understand one another by discussion instead of just by quoting sources. My primary concern is of its effectiveness: how many truly effective editors do not already follow the basics of cross-checking their work and making necessary discussion and clarification? It will certainly be useful to help instruct those who want to be good editors, but how big is the group of those who want to be good editors and don't already have an intuition of how to do that? Awickert (talk) 04:02, 15 August 2009 (UTC)

To answer Awickert's last point, I would say that the group of editors in need of legislative support is quite large. Frequently I experience, and have seen, attempts to argue (on talk pages) from first principles, to clarify a techinical matter, dismissed as WP:OR by editors who really need the help, to the detriment of article development.--Michael C. Price ^talk 06:47, 15 August 2009 (UTC)

(EC) Ah, I've only had that problem while removing pseudoscience. But as that's your experience, I agree with its intent and effectiveness. Awickert (talk) 15:07, 15 August 2009 (UTC)

Diclyon wrote:

What baffles me is how this opinion of his is to be reconciled with his defense of Brews ohare's editing in the discussions above.

In case of the disputes with Brews, I think having discussions on the talk page based on the fundamentals would be helpful. I don't think that's happening right now. Also, the disputes with Brews are centered mostly around definitions, not on real physics. If you were to follow my guidelines for discussions, you would more quicly arrive at the heart of the matter and then you can reach an agrement. It will either be the case that the way Brews wants to define a concept is not consistent with the way sources define it or it is, but to find out you may need to go beyond simply quoting from sources.

E.g. on the wiki page on apparent weight, SBHarris claimed that the article is edundant as we already ahve an article on G-force. But I countered that the two concepts are not exactly the same, giving the example of frogs floating in a magnetic field. Although the discussion will still go on as SBHarris wants to make ad hoc exceptions, it is still very helpful to use these sorts of arguments based on real physics. It is better than simply quote definitions from sources and then having to argue why your source is of higher quality than the source of your opponent. These sorts of arguments are often besides the point. Count Iblis (talk) 15:06, 15 August 2009 (UTC)

What we really need is an answer to WP:MEDRS - those silly medical so-called "doctors" are getting ahead of us! Reminds me of Wikipedia:Scientific standards. - 2/0 (cont.) 18:12, 20 August 2009 (UTC)

Which connection I notice has already been made - good on you. - 2/0 (cont.) 18:26, 20 August 2009 (UTC)

I'd like to add to the guidelines some advice about debate over meanings of terms. My own experience on centrifugal force and its related articles, and on electromotive force, has been the unfortunate usage in published sources of different meanings for the same exact wording. That would not be a problem if we just listed the meanings with their sources, and then presented the matter. But instead there is a tendency for participants to divide in support of their favorite definition and call the opposing forces bad names. Once that mode sets in, there seems to be no short way out of the problem. Brews ohare (talk) 23:38, 24 August 2009 (UTC)

Another guideline I'd like to see added has to do with the selection of material and the evolution of articles over time. There are those among us that think WP is for grades 5 - 8 and anything more complex or detailed is inappropriate. There are others with the view that if you cannot understand the article, then the whole topic is beyond you, so forget it. My view is that every article should have an understandable intro with links to related topics so the reader can identify the range of the topic and the resources available on WP. The remainder of the article may include complexity, and as the article grows, these complex issues may be spun off to independent more technical articles. However, I object to a requirement that every article be completely understandable to anyone, which seems to me to be too restrictive. I have had very extended wars with Dicklyon and others who, simply based upon their own judgment, exclude technical material because they feel that simplicity is king, or perhaps simply do not understand the relevance of the more technical topics. Brews ohare (talk) 23:51, 24 August 2009 (UTC)

You had me up until "Dicklyon". All sounds very sensible. I do write a lot of technical stuff, and I don't think I have ever excluded material for being too technical; you just don't listen to feedback very well. Dicklyon (talk)

Brews, I think that's a straw horse; everyone agrees that articles should include relevant technical material (after the intro) put into its proper context, and not include irrelevant and/or out-of-context technical material anywhere. The disagreements I've seen you have with Dicklyon at wavelength, with Martin Hogbin, myself, and others at speed of light, with Steven G. Johnson at Maxwell's equations, etc. have all been about putting that into practice, rather than the principles themselves, as far as I could tell.

That said, it wouldn't hurt to set it down within Count Iblis's guideline.

If I were writing this, I would mention something about being aware of the audience. For example, an "accessible introduction" for an article like Lindblad equation isn't the same thing as an "accessible introduction" for an article like electron. Likewise, every article has an implicit threshold for how long and technical some section should be before it gets spun off into a separate article; the threshold for an article like Lindblad equation should be much higher than the threshold for an article like electron. I think we all know this, but maybe it should be there anyway. :-) --Steve (talk) 08:06, 25 August 2009 (UTC)

Well Steve, I have had disagreements over subject material and what you call "being aware of the audience", but what I would call "arbitrary dismissal of certain topics" justified by arguments like yours, and arguments about "bloat" and so forth, that are equally interpretable as highly individual criteria for exclusion, not based upon sources, lack of rigor, relevance etc. but simply an unsourced difference of opinion. I'd like some guideline that would break that deadlock based upon a wider and more objective view of relevance to the article. In support, I note that a major reason readers turn to WP is for exactly such a wider view of a subject, a reason for consulting WP that I have heard from others outweighs a common perception that WP is not authoritative and that WP is full of crackpot ideas. The scoping out of a topic is one unequivocal asset of WP. Brews ohare (talk) 11:01, 25 August 2009 (UTC)

Yikes. I can understand the frustration that all of you have but can we keep this on topic please. (WP:Goodfaith and all that jazz.)

Brews: you state that we should have guidelines with 'some advice about debate over meanings of terms'. Can you give us some concrete guidelines for this? I think we can all agree that this can be a problem. I am not quite sure if there is a solution to it. Nor am I convinced that it happens enough that we need to establish a guideline for it. I would love to see your ideas, though.

Your second paragraph above about how to organize WP articles is already established WP policy. (See WP:TPA for instance. I am sure there is something clearer, but I can't find it now.) I suppose we can have a short description and link to that policy, though. TStein (talk) 13:54, 25 August 2009 (UTC)

Here is a possible wording of a guideline:

Draft guideline concerning debate over meanings

Authors may embroil themselves in unnecessary debate by assuming their usage of a technical term like "fictitious force" (for example) has a single meaning in the technical literature. When a definition or usage is contested, the best way to approach the matter is not a defensive pose and a battery of sources supporting your usage. That tends to result in protracted skirmish. Instead, it is prudent to search for alternative meanings, rare as they may be, and present all the possibilities. That way one hopes editors will agree that alternatives exist and some discussion over how to present the alternatives can replace a battle over "who is right". It should be borne in mind that this is not a situation where only the predominant usage should be presented, as many readers will be familiar with other usages. So several, maybe all, usages should be introduced, though perhaps not dwelt upon equally. Where widely varying usages appear, a disambiguation page may be indicated, leading to separate articles. An example is centrifugal force, where this term is commonly used in several ways, and a separate article has been written for each of the common usages. (Although the final result is sensible in this case, its Talk pages are not an example of following this guideline, but a cautionary example of how not to go about such resolution.) Brews ohare (talk) 14:55, 25 August 2009 (UTC)

I see here that you fellows are going to implement a set of rules to allow you to ignore, dismiss, and ban experts in physics that disagree with your erronous interpretations. This is an Orwellian effort to suppress correct physical interpretation in favor of your erronous interpretations. You fellows have convinced me beyond all doubt that it is absolutely necessary to encourage dissent here, because otherwise, wikipedia articles would really become worse than useless, as they are now. I salute Brews Ohare and David Tombe for opposing your brand of false physics in the hope that clear heads prevail, rather than the muddledheadedness that is currently in charge here. I am reccomending to my students that no body use wikipedia as a source of physics education information because of the poor quality of your articles.72.64.33.132 (talk) 13:26, 5 September 2009 (UTC)

Edwin Power

Just created this article. If you know anything about the guy, feel free to expand. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 18:10, 4 September 2009 (UTC)

Excellent article. Could be a nice little GA. Xxanthippe (talk) 22:32, 5 September 2009 (UTC).

Still need help with the 'Speed of light' article.

One editor has been pushing his idiosyncratic views on the 1983 definition of the speed of light for some months now. I have had enough edit warring, sometimes with little support from other physicists active on the page. His edits on the subject are sometimes blatant nonsense and other times more subtle but a concerted effort is needed to ensure the standard mainstream view of the subject is presented in this article.

Please help. Martin Hogbin (talk) 18:48, 2 September 2009 (UTC)

I think it would be helpful to discuss this with Brews again (he asked me to get involved on my talk page a few days ago, but I was too busy then), but this time with one new rule: Citing from sources is not allowed. So, we have to discuss from first principles and explain everything when challenged from first principles. This removes the freedom to interpret what some source says in some arbitrary way. Because most contributors are experts in physics, this can work. If someone is not an expert and makes mistakes he/she will be disqualified more easily (precisely because you can't hide behind sources). Count Iblis (talk) 20:33, 2 September 2009 (UTC)

Arguing from first principles has no place in wikipedia; we're about reliable sources. What's not OK is for Brews to push an interpretation that he has no source for; he has sources for bits and pieces of info, all of which is acceptable content, I think, but not for his idiosyncratic synthesis from those sources. This is just business as usual for Brews, as the history of discussions of him on this project talk page amply demonstrates. I have been pushing Martin to not remove things that are backed up by sources, and Brews to not add stuff without explicit support in sources, and if they would both comply I think the problem would sort itself out. There are still lots of other details that people will fight over, but it will be easier without these two dominating it the article and talk page. Dicklyon (talk) 03:23, 3 September 2009 (UTC)

I defy Dicklyon (or anyone else) to come up with a single piece of "idiosyncratic synthesis" from the presentation at User:Brews ohare/Speed of light (Example). It is very simple textbook logic based upon the basic BIPM definitions, on the level of grade school geometry. Dicklyon's characterization is pure yellow journalism unless supported by some factual example that could be discussed. This kind of harangue and band leading appears contrived only to shut down any exchange. Brews ohare (talk) 06:28, 3 September 2009 (UTC)

No, Brews what you write there is just a logical fallacy based on your incorrect preconceptions and lack of understanding of modern physics most notably general relativity. The physical interpretation of your example is simply that the spacetime metric has changed between the first and second measurements. (Our that the first measurement was inaccurate due to inaccuracies in our knowledge of the actual length of the meter.) Any change in the 'actual speed of light' is always physically equivalent to change in the metric. And a change in the metric is the only known possible physical cause of a change in the 'actual' speed of light. One thing that is completely clear from GR is that logically speaking the units for space and time should be identical. In such units the actual speed of light is always exactly 1 (which is the result of the signature of the metric, which cannot vary continuously since it is a discrete property.) The 1983 decision just complied with this physical reality and added a numerical factor between the units to make them backwards compatible with the previous definition. In the end your argument just goes to show your lack of physical sophistication. (TimothyRias (talk) 09:59, 3 September 2009 (UTC))

TimothyRias: The argument presented does not depend in any way upon GR. There is nothing in the hypothetical nature of an improved time measurement that requires a change in the spacetime metric. The actual physical speed of light is not hypothesized to change in any way. Please read User:Brews ohare/Speed of light (Example) again. If you see anything in there that requires GR, please point it out by some direct quote. Brews ohare (talk) 14:56, 3 September 2009 (UTC)

Sorry, I indeed slightly misread what you comparing to what. The gist stays the same though. The correct physical conclusion of your hypothetical experimental outcome is that (in SI units) the wavelength of the atomic transition you used to define the "actual distance between A&B" must have changed between the experiments. (or alternatively that the previous determination of this wave length was inaccurate, but I'm assuming that that possibility is excluded by the precision of the measurements.)

As an exercise for you, replace every occurrence of metre in your example with lightsecond and every occurance of the number 299 792 458 by 1. It is not hard to see that you must come to the same conclusion as I have with the original, namely that the wavelength of the atomic transition expressed in lightseconds has changed. (TimothyRias (talk) 15:39, 3 September 2009 (UTC))

Hi TimothyRias: It seems to me that you are trying to come up with a mechanism that might lead to a changed measurement of the time-of-transit. That might be a useful exercise: I believe many of the discussions with Einstein took this kind of turn - answering a question like "could that hypothetical actually arise". However, I'm just focusing upon improvement in measurement technique without going into how that might happen. My take is that an improvement in measurement technique could occur, and its exact origin is not a concern for the purposes of the argument.

The argument in short form is this: suppose the separation of A&B is measured in wavelengths and the time-of-transit is measured in seconds. Then the speed of light is # of wavelengths/ transit time. If the measured time is measured more carefully, a different, more accurate, speed is found. However, regardless of any of this, the speed of light in SI units is still the defined exact value 299 792 458 m/s. Inasmuch as one speed changes with the measurement improvement, and the other does not change, the two items are not the same thing. One is an approximate measurement of the real speed of light c and the other is only a convention, a defined exact conversion factor c₀ = 299 792 458 m/s. Consequently, a statement like "the fundamental speed of light is a constant of nature with the exact value of 299 792 458 m/s" is, simply, nonsense. In some sense the number 299 792 458 m/s is a charade, because you know how many metres it is per sec but you don't know what the metre is without knowing the real speed of light (it's a tautology). It is a bit much to present a reader with a tautology without explanation in the Intro and pass it off as though it had objective content ("the exact value of this fundamental constant of nature is 299 792 458 m/s"). Do you agree?

I have placed an argument at User:Brews ohare/Speed of light (Example). It does have sources, but I believe they can be ignored for the purposes of this discussion, because all that is needed is velocity = distance/time. If there is a sourced point that requires some first-principles support, that certainly can be looked at. That discussion page can be used to present comments. Brews ohare (talk) 20:48, 2 September 2009 (UTC)

I understand your point, but that's not specific to that definition of c: it applies to any way of defining any unit of measurement. When the second was defined as 1/86,400 of the mean solar day, the length of the mean solar day was 86,400 seconds both in 1900 and in 1956, despite the real length of it being greater in 1956 than in 1900, because the seconds had become larger, too, as a consequence of the definition; a precise measurement of some duration which had remained exactly the same would have yielded a smaller number of seconds in 1956 than in 1900. The mass of the International Prototype Kilogram is 1000 grams both now and one century ago, despite its real mass is (believed to) be greater now than one century ago, because the grams have become larger, too, as a consequence of the definition; yadda yadda yadda. Now, of course, to solve these problems it makes sense to choose as a standard something which varies as little as possible, so we have chosen something for which there's damn strong evidence that it cannot change—namely the speed of light. --___A. di M. 23:51, 2 September 2009 (UTC)

A. di M.: So, if I understand you, since this is my point, which you say is universally true, you agree with the point that the real speed of light is logically and not simply numerically different (perhaps numerically different because of measurement errors or some such) from the SI conversion factor?? So, in this instance of the SI units we are in agreement that the real speed of light is logically different from the SI units conversion factor?? Because, if you do agree, then one cannot say (as was said in speed of light in some versions) that the real speed of light is defined to be exactly 299,792,458 m/s inasmuch as they are two different things, and only the conversion factor is exactly defined. Brews ohare (talk) 03:04, 3 September 2009 (UTC)

That point has been explained to Brews repeatedly—at Talk:Speed of light, on my talk page, at User talk:Dicklyon (under several headings; Brews started 6 discussion topics on Dick's talk page)—but he either can't or won't get it. While speculation on someone else's state of mind is, well, speculation, I think that Brews can't get around the apparent (but not real) logical tautology of the value of c being expressed in terms of a metre that is defined by the speed of light itself. It would be a real tautology, or arbitrary, if the time it took light to get from A to B varied, and the metre fluctuated accordingly. But, as you point out, the constancy of the speed of light is a principal reason that it became the yardstick metre-stick—Finell (Talk) 02:31, 3 September 2009 (UTC)

Finell: Several points have been made by A. di M; which point specifically do you agree with? Are you saying you agree with A. di M that the real speed of light is logically and not just numerically different from the SI units conversion factor?? BTW whatever the validity of using the speed of light as a reference, the reasons for that validity are not the discussion here. The discussion here is whether the real speed of light is logically and not just numerically different (due some accident of measurement say) from the SI units conversion factor. Brews ohare (talk) 03:04, 3 September 2009 (UTC)

Please do not feed the troll; this argument can never end. The only way it matters is if Brews can show a reliable source that make a distinction between the "conversion factor" and the "real physical speed of light". So far, he hasn't shown us one. Dicklyon (talk) 03:26, 3 September 2009 (UTC)

Dicklyon: I'd like a brief answer to these questions:

1. Is it your position that you don't care one way or another whether the argument at User:Brews ohare/Speed of light (Example) is correct?
2. Or, is it your position that the argument at User:Brews ohare/Speed of light (Example) is invalid. If that is your view I'd appreciate being shown the error involved, as the argument seems very simple and unlikely to have any hidden missteps. I assure you that if the argument is wrong, I'll go away with apologies.
3. And, is it your view that the argument at User:Brews ohare/Speed of light (Example) (whatever its validity) exhibits so complex a sequence of reasoning that a normal individual would require a source for reassurance about the conclusion?
4. Or do you simply want the subject to go away? If so, why? In particular, is it simply because of the pack of hounds baying over this subject? Personally, I think you can handle it. Brews ohare (talk) 06:08, 3 September 2009 (UTC)

I didn't state anything like that. It'd be like stating that the mass of the International Prototipe Kilogram "is logically and not just numerically different from" one kilogram, or as if someone in the 1950s had stated that the length of the mean solar day "is logically and not just numerically different from" 86,400 seconds; the only difference is that these two do change, whereas the speed of light doesn't. Please don't misquote me, at least. --___A. di M. 11:01, 3 September 2009 (UTC)

A. di M.: I wasn't aiming to misquote you, I just couldn't understand you. Maybe now I do. I agree that the real speed of light doesn't change and the physical kg does. However, the distinction between the concept of kg and the realization of the kg is not the same kind of distinction made in User:Brews ohare/Speed of light (Example) between the SI units defined conversion factor c₀ = 299 792 458 m/s and the real speed of light. The conversion factor is used to change length measurement to be equivalent to a time-of-transit measurement, thereby eliminating an independent length from the SI units. Consequently, any length measurement in SI units is really a time measurement. So my point could be said this way: a measured speed of light requires both a length and a time measurement and thus is fundamentally different from the defined exact SI conversion factor c₀ = 299 792 458 m/s. The constancy and exactitude of this conversion factor is not a reflection of the underlying constancy of the real speed of light; it is a logical mathematical consequence of using a defined conversion factor that places measurement of the speed of light outside the scope of the SI units by converting all length measurements to comparisons of transit times with 1/299 792 458 s. Brews ohare (talk) 15:45, 3 September 2009 (UTC)

Brews: Since you aren't even trying to learn, I'll stop trying to teach you. The misunderstanding is yours. —Finell (Talk) 04:47, 3 September 2009 (UTC)

Finell, I am afraid that you have not sorted out what the issues are, nevermind understanding the arguments. Your comments so far are on matters peripheral to the discussion. So pack up your attitude. Brews ohare (talk) 06:08, 3 September 2009 (UTC)

Oh, please, not from you! Where do you get the chutzpah to condend that everyone who disagrees with you (which is almost everyone on this subject), including real physicists, is wrong, and that you have managed to discern a fundamental flaw in the foundations of physics that has eluded the best minds in physics for 26 years (actually longer, because the redefinition of the metre was in the works for years before 1983). Instead of impugning everyone else's motives and comprehension level, please try some self-examination for a change. —Finell (Talk) 13:07, 3 September 2009 (UTC)

Finell, I do not impugn your motives or ability to comprehend; I say only that you have not yet comprehended User:Brews ohare/Speed of light (Example). Please quote any remark there that discusses or employs a "fundamental flaw in the foundations of physics". Or, any point in User:Brews ohare/Speed of light (Example) where I "contend real physicists are wrong". Nothing remotely like that is in the article. Brews ohare (talk) 14:59, 3 September 2009 (UTC)

Just to sum up my comment above: Brews, the logically fallacy you are committing in your example is the assumption that the distance between A and B doesn't change overtime. The modern physical paradigm is that distances between points are constantly changing. From that point of view, the physical conclusion of you hypothetical experimental outcome is that indeed the distance between A and B has changed. (TimothyRias (talk) 10:07, 3 September 2009 (UTC))

TimothyRias: I wonder if you are reading reading User:Brews ohare/Speed of light (Example) or something else. There is no "logical fallacy" in assuming two points A & B are a fixed distance apart for the sake of discussion. No part of an improved time measurement requires GR and spacetime variation. It is only about man's abilities to measure. I think we got off on the wrong foot here. Brews ohare (talk) 15:02, 3 September 2009 (UTC)

Tim, your point is true, but Brews' error is more fundamental and exists even if we assume that the distance is constant. The original measurement of the distance is, by the SI definitions, logically dependent on the speed of light. The 2nd measurement -- the one where the light is actually fired across the gap -- amounts to just a recalibration of the original yardstick used to measure the distance. Tombe could never get his head around this, and it seems Brews can't either. --Michael C. Price ^talk 11:40, 3 September 2009 (UTC)

Michael C. Price: Tim's point does not bear upon User:Brews ohare/Speed of light (Example) at all. Your understanding of the set up is partly correct. Yes, recalibration of the metre occurs. That is not only accepted but part of the discussion. The other part of the discussion is an interferometric measurement of the length, which does not depend upon the definition of the metre. If improvement in clocks occur (which has happened over and over again historically), then the metre recalibrates as it must so the "speed of light" used in the SI units will stay the same: c₀ = 299 792 458 m/s. On the other hand, the separation of A&B in wavelengths does not change, so the speed of light determine by dividing the spacing in wavelengths by the newly measured time will lead to a newly measured speed of light in wavelengths/s. Do you have a problem with that?? Brews ohare (talk) 15:03, 3 September 2009 (UTC)

Yes, I have a problem with The ... measurement of the length, which does not depend upon the definition of the metre. I'm afraid it does depend on the definition of the metre. Unless you choose to record the result in non-SI units, in which case you merely postpone the moment until convert to metric, which you have to do because you are trying to measure light speed in metres/second. It's as simple and inevitable and as inescapable as that. Your two measurements are measuring the same thing twice. --Michael C. Price ^talk 16:54, 3 September 2009 (UTC)

Michael C. Price : We are at cross-purposes here. One measurement uses wavelenghts/s, and is completely separate from the metre. It is not necessary to convert this measurement to m/s because it need not be compared with the measurement in m/s. All that is needed is a comparison of the earlier and the later speeds, both in wavelenghts/s to see that a change has occurred. On the other hand, in the SI units no change occurs: the speed is always c₀ = 299 792 458 m/s. That difference in behavior is the focus here. It means that the speed in wavelengths/s is an actual measurement of the fundamental speed of light c, while the other is simply an arbitrary conversion factor with a defined exact value beyond measurement's ability to alter. Brews ohare (talk) 17:22, 3 September 2009 (UTC)

in the SI units no change occurs Wrong. If c changed then the metre would change. --Michael C. Price ^talk 20:03, 3 September 2009 (UTC)

Michael C. Price: Hey, cut me some slack here. What is meant is: in SI units no change occurs in the speed, which is always c₀ = 299 792 458 m/s. That should be clear from context, I hope. Take another look. That I'm aware that the metre changes also is very clearly stated in User:Brews ohare/Speed of light (Example). And just to be clear, it isn't c that changes, its the measured value of transit time. Brews ohare (talk) 21:20, 3 September 2009 (UTC)

You emphasized no in "no change". If now you decide you don't mean it, fair enough. --Michael C. Price ^talk 22:17, 3 September 2009 (UTC)

I think implicit in Brews argument is that both measurements are done with high enough precision, to be able to conclude that the two measurements give a different result. Interpreting the measurement as a recalibration of the yardstick, implies that it must have changed in length. If you assume that it didn't, recalibration doesn't make any sense. In essence the two mistakes are the same. I was hoping that my explanation over was more appealing to Brews' physical intuition. (TimothyRias (talk) 11:59, 3 September 2009 (UTC))

Yes, one has to assume measurements of adequate precision. The term recalibration here must be understood in the context of the BIPM definition: c₀ = 299 792 458 m/s must remain constant despite any change in measurement technique; hence, changes in measurement technique affect the metre, not c₀ = 299 792 458 m/s. Do we agree on that point? Brews ohare (talk) 15:05, 3 September 2009 (UTC)

And the discussion goes on below

I am pretty certain that you guys know a lot more about physics than I do but it strikes me that some are being a tad unfair to ohare. I hope good faith can be assumed ... ohare clearly believes there is a problem with the wording of the SoL article and are doing their utmost to gain support for changes in order to help readers (bolding to emphasis that ohare is not on an ego trip but seeks what we all seek ... a better article). Those who do not assume good faith can stop reading now.

Unfortunately for ohare (and maybe us all) support is not forthcoming but they won't give up, indeed the level of verbosity grows by the day ... having said that, Hogbin can be fairly verbose and obdurate as well so it is not all one-sided. What worries me is that the debate is becoming an arguement and a slightly unseemly one at that.

I also have a difficulty with some of the wording of the SoL article. In earlier discussions I have called it the 'circularity difficulty'. In a nutshell it is this: The metre is defined in relation to the SoL and the second. Therefore to state that the speed of light is an exact 299.. m/s is a tautology, it is a circular argument because it is true only in a self-defining way. Saying that the speed of light is exactly 299.. m/s doesn't actually tell us anything about the SoL unless we add into the equation some other definition of the metre, unrelated to the SoL, to give us a scale reference. I am not a stupid person and if I think like this there will be others who do also ... I am thinking of readers, for whom wp is designed (not for editors). I may be wrong, but I think this circularity is at the heart of ohare's point. However, if I am right it should be possible to attack the problem calmly together and work out a form of words that clarifies the article for the reader rather than fighting corners in a macho way.

I hope I have made my points clearly ... I would be interested in hearing other views. Abtract (talk) 12:24, 3 September 2009 (UTC)

Abtract: Thank you for your tone and comments. Yes, the tautology underlies my concern. User:Brews ohare/Speed of light (Example) is aimed only at showing that the speed of light as measured in units with an independent length and the SI units "speed of light" c₀ = 299 792 458 m/s are different concepts. The first is indeed a measured speed and the second is a defined "conversion factor". Consequently statements like the "the real fundamental speed of light has a defined exact value of 299 792 458 m/s" is pure baloney. Brews ohare (talk) 15:08, 3 September 2009 (UTC)

I'm a sympathetic to the confusion this tautology can cause. I've made a minor edit to the lead to stress that c taking a fixed value is a peculiarity of the SI system of units. The tautology itself should not be hard to understand. The definition of units will always have to take some physical value as a reference, with as a result that the value of that quantity becoming fixed. In some cases this is more intuative then in others. Nobody is surprised by the fact that measuring charge in elementary charges leads to the charge of the electron being exactly -1 e. Similarly, if we were to adopt the lightsecond as our official measure of length very few people would be surprised that the speed of light is then exactly 1 lightsecond per second, that would be tautologically true. The 1983 decision to redefine the metre as ~1/299,792,458 lightsecond, of course, has exactly the same effect, but it is less intuitive since 299,792,458 is such an odd number. (TimothyRias (talk) 13:04, 3 September 2009 (UTC))

I take it that these remarks do not bear upon User:Brews ohare/Speed of light (Example) , but are intended as a response to Abtract. Brews ohare (talk) 15:08, 3 September 2009 (UTC)

I think many people are contributing to the problem by talking about seconds getting longer and lengths changing and moving to "better" units of measurement that "don't change as much" (those are scare quotes, not quoting quotes). These are unfortunate linguistic choices that are just going to deepen Brews ohare's confusion.

When we measure continuous quantities we're always measuring the ratio of one to another. It's usually more convenient if one of the two quantities is a standard yardstick of some kind, for roughly the same reason that a cash economy functions better than a barter economy, but the standard yardsticks are defined by a ratio with some measurable quantity, so when you measure with respect to a standard yardstick you're ultimately measuring a ratio of two physical quantities by proxy. What does it mean if the ratio changes? You might say "it means one or both of the quantities has changed but we don't know which", but that would be wrong, because changed with respect to what? You're implicitly comparing to an absolute, true and mathematical unit that doesn't exist. Only the ratios are real. You can measure the speed of light in wavelengths of some atomic spectral line per periods of some other spectral line, as Brews ohare wants to do in his essay, but if that changes it doesn't mean that the speed of light has changed, it means that the ratio formed from those three quantities has changed. Which of the three is responsible? Again, meaningless. So how do we decide to call some units more fundamental than others? By looking at lots of ratios. The international prototype kilogram is a good example. The mass ratio of the IPK to various nations' copies has deviated noticeably from 1 since the copies were made, but the ratios between the national copies have varied relatively little. Occam's razor suggests that we would be better off assuming that other masses have varied less with respect to some weighted average of the national kilograms than with respect to the international kilogram, making the national kilograms a better unit standard. Officially the IPK is right by definition and the national kilograms are wrong, but people are not blind to the implications of these ratios. Nor would they be blind to a systematic variation in many measured quantities that disappeared when a different definition of the meter was adopted. They would adopt that new definition, and if the ratio formed from the speed of light, the second, and the new meter was found to vary then they would probably describe that as variation in the speed of light (though it's debatable whether they should). The current standard meter was chosen because it correlates well with other empirical yardsticks and it's measurable to high precision. If at some point another yardstick satisfies those criteria better then the definition will be changed again. It's not the final definition, just the current one.

"The Nature of Time" by Julian Barbour is a good read on this subject. -- BenRG (talk) 14:09, 3 September 2009 (UTC)

BenRG: Your comment is more an essay than a soundbite, so I may miss some points. In broad outline you are concerned with the general nature of standards, how they are used, and why they are adopted. However, I am unclear how your remarks apply to the article User:Brews ohare/Speed of light (Example). Perhaps you mean to say that general confusion over standards has infected the discussion of this article? Brews ohare (talk) 15:28, 3 September 2009 (UTC)

Abtract, that's true of any way of defining any unit. When the litre was defined as the volume occupied by one kilogram of water at standard pressure and at the temperature at which it has the greatest density, “[s]aying that the” density of water was “exactly” one kilogram per litre didn't “actually tell us anything about the” density of water “unless we add[ed] into the equation some other definition of the” litre, “unrelated to the” density of water, “to give us a scale reference.” (The litre has since been re-defined as exactly one cubic decimetre.) --___A. di M. 14:47, 3 September 2009 (UTC)

I am going to suggest something heretical. There are way more then enough editors on speed of light and has been for over a month. It hasn't worked. Why do you think that adding more editors, if they even exist, will work any better?

Maybe it is time for a tactical retreat. There are a number of stalled articles that with a little attention can be greatly improved with far less hassle. Wouldn't it be great to be able to edit articles and have people appreciate your edit again? Just as important, Brews is smart enough to figure out the problem on his own but is stubborn enough that he won't as long as there are people pushing back against him.

Let it be for a little. It wouldn't be the first article with silliness; nor is it even the worst problem with that article. (To me it does not separate c from v enough for the average reader and even implies in some places that the space-time constant depends on v.) TStein (talk) 15:04, 3 September 2009 (UTC)

Thanks for the complement TStein. I don't think, however, that my thoughts are clouded by the need to reply to others here. I do think that the simple discussion at User:Brews ohare/Speed of light (Example) is amazing in its ability to provoke wild response to things that actually are not said there or even discussed there. Many imagine what it says, but not many read what it says.

It would be desirable if editors would quote items from User:Brews ohare/Speed of light (Example) verbatim that they disagree with, and then make their point, rather than gaining some broad view of the article (quite possibly jumping to conclusions) and arguing about things that are not said.

Nonetheless, your advice may be wise. Brews ohare (talk) 15:13, 3 September 2009 (UTC)

Ok, so the point you make is that if nothing really physically changes (e.g. no exotic physics changes, like e.g. the photon gaining a mass in vacuum etc.) except that we would be able to measure time more accurately, we could find that the time it takes for light to move from one fixed point to another fixed point could have changed. It could become less. But this would lead us assigning a smaller distance in meters between the two fixed points, simply because the way we define the meter.

My reply is that before we made the more accurate measurement, the intended definition of the meter would be what we later would have found. So, we would later correct the distance between the two points in terms of meters and that would be due to a recalibration of the meter due to a more accurate measurements of the length standard. Count Iblis (talk) 15:44, 3 September 2009 (UTC)

Count Iblis: The first paragraph I understand and agree with. The second paragraph? Could you rephrase that please? What is the "intended definition"? Are you agreeing or disagreeing, and with what? Maybe the BIPM definition helps here: “length is obtained from the measured time t, using the relation ℓ = c_o·t and the value of the speed of light in vacuum c₀ = 299 792 458 m/s” . Brews ohare (talk) 16:01, 3 September 2009 (UTC)

I don't think there is any real disagreement here either. You have a situation where the speed of light was wrongly measured to be lower than it actually is and that will lead to a recalibration of the meter, because one uses the speed of light to define the length standard. Count Iblis (talk) 17:19, 3 September 2009 (UTC)

I'm happy that there is not disagreement at this point, but that leaves open whether you agree with the view that a measurement of the fundamental speed of light c using units like wavelengths/s that can and does change with experiment is to be distinguished from an exactly defined conversion factor c₀ = 299 792 458 m/s that measurement cannot change. As I said to Tim above: In some sense the number 299 792 458 m/s is a charade, because you know how many metres it is per sec but you don't know what the metre is without knowing the real speed of light (it's a tautology). It is a bit much to present a reader with a tautology without explanation in the Intro and pass it off as though it had objective content ("the exact value of this fundamental constant of nature is 299 792 458 m/s"). Do you agree?Brews ohare (talk) 17:32, 3 September 2009 (UTC)

How do you propose we state the speed of light? "The speed of light is roughly 299792458 times 1650763.73 wavelengths of this spectral line of Kr-86 divided by 9192631770 periods of this spectral line of Cs-133"? Multiplying those numbers together, that simplifies to "The speed of light is roughly 53835 times the wavelength of this spectral line divided by the period of that spectral line". 53835 is the ratio of the frequencies of the spectral lines in question. How is that not circular? How is it "real"? (That's the point I was trying to make in my essay.) -- BenRG (talk) 18:04, 3 September 2009 (UTC)

Not that anyone will listen to what I suggest, eh? I think I'm happy so long as no weird statements are made to the effect that c = 299 792 458 m/s is an exact value for a fundamental constant of nature. Brews ohare (talk) 18:13, 3 September 2009 (UTC)

Sorry, but since that statement is true (and reliably sourced) we would be remiss not to include it.--Michael C. Price ^talk 19:57, 3 September 2009 (UTC)

We could say that the the meter is defined such that the speed of light is exactly 299 792 458 meters per second. If we want to say something about the speed of light that does not depend on this arbitrary choice, we could write that that light travels a long a null geodesic. If you choose arbitrary units for space and time, then given the geometry of space time expressed in these units, along the space-time trajectory of a photon, we have that ds^2 = 0. Count Iblis (talk) 20:39, 3 September 2009 (UTC)

I don't know what the mystique is about having an exact speed for the speed of light in the lead. We all know that no property of nature is known exactly, and that includes the real physical speed of light. All that happens in the SI units is that the error bar has been buried in the units instead of in the nine figure number. A normal person will be unaware of the buried error bar, and would take the nine figure number as somehow all there was to it. The whole mess of unraveling this business of burying the error bar can't go into the intro.

So the only justification for introducing true but misleading info in the lead is if you subscribe to the superstition that exact values for measurable entities is OK. Another approach is to follow Abstract in some measure and say something like "In 1972 the speed of light was established as c = 299 792 458 ± 1.4 m/s. In 1983 the definition of the metre was changed from a length to a time-of-flight and the conversion factor was chosen to be c_o = 299 792 458 m/s." The simplest approach, however, is to drop the word "exact" and defer the subject to the later section "Speed of light by definition". Brews ohare (talk) 20:56, 3 September 2009 (UTC)

You wrote: "We all know that no property of nature is known exactly, and that includes the real physical speed of light." and I disagree here. We know that the ratio between the circumference and the diameter of a perfect circle is exactly pi. Of course, such statements comes with some assumptions in small print, in this case that the geometry is exactly Euclidean. Another example: The temperature of water/ice/vapor at the triple point is exactly 273.16 K. Of course, this statement defines the Kelvin scale.

In case of the speed of light, if you look at how it appears in the fundamental laws of physics, then you see that it is a trivial scaling constant that can be set to 1. The fact that it is considered to be a constant of Nature is only for historical reasons. We could measure the speed of light before we had the relevant theories like relativity.

In general, we can always play this game. Take some undisputed exact equation of physics, say, dU = dq - dW, and then replace the invisible factors of 1 by constants. If we do this only for dq, we get dU = r dq - dW. Then assign to heat the new dimension "heat" (do we really know that heat energy is the same as energy in the form of work? Let's be agnostic about that). I can then define the constant r to be exactly 4.184 Joule/Heat. In practice this means that the "Heat" can be identified with the thermochemical calorie.

So far this is all theory. But now, suppose that for metrological reasons it is more convenient (or more accurate) to have separate standard to measure heat. Then, the constant r would no longer have an exact value, but it would be an empirical dimensionful constant constant with an error bar. If later it would be more convenient to measure heat in another way, one could define r to have some fixed value. And theorists would, of course, always prefer to use natural units in which r = 1. Count Iblis (talk) 23:28, 3 September 2009 (UTC)

Count Iblis: First, the "no known property of nature is known exactly." Let's put this in context. For example, we know the fine structure constant is :

${\displaystyle \alpha =\ {\frac {e^{2}}{\hbar c\ 4\pi \varepsilon _{0}}}\ }$

exactly, but we don't know its value exactly because it is made up of measurable parameters that can only be observed with error bars. The speed of light is in that category: it cannot be deduced from logic as can π or e. That is what I meant: we all know that c cannot be known exactly. It has to be measured, and in 1972 or thereabouts it was measured as 299 792 458 ± 1.4 m/s using the pre-1983 metre. That error bar did not "go away" simply because of a change in the definition of units. Rather, we buried the error bar in the uncertainty of the metre. Do you agree? Brews ohare (talk) 00:27, 4 September 2009 (UTC)

I would say that in your expression for alpha, from a purely theoretical physics point of view, you can consider hbar and c and the epsilon_0 to be irrelevant scaling constants. The square of the electric charge in these natural units is the coupling strength of electrons to photons and this is the fine structure constant alpha, which can indeed be measured directly by measuring the magnetic moment of the electron and comparing the measured value to the QED prediction. The reason why, say, hbar is not a defined constant is purely for metrological technical reasons, not because of fundamental physics reasons.

If you have some physical artifacts representing time intervals ad lengths that cannot be computed from first principles, and you take them to be your length and time standard, then in those units the speed of light will have error bars. That was the situation before 1983. In 1983 we decided to do away with the ad hoc physical artifact for length and instead define the speed of light to have some fixed value. Count Iblis (talk) 01:06, 4 September 2009 (UTC)

Count Iblis: I take it that you do still maintain the SI units conversion factor 299...m/s is an exact constant of nature, analogous somehow to mathematical constants like π & e, and not as Jespersen, and Wheeler, and Sydenham say,"a conversion factor whose value is fixed and arbitrary"? (my italics). I guess we can say "what's in a name", but this approach buries the error bar of measurement in the metre, instead of displaying it explicitly, e.g. as 299...± 1.4 m/s as was done pre-1983. So today we have 299 ... m/s as an "exact" speed of light, but we don't know what the metre is exactly. Do you agree? Brews ohare (talk) 05:46, 4 September 2009 (UTC)

We didn't know what the metre was previously either as that we defined in terms of wavelengths and that also has some experimntal error associated with it. But, in theory, you can imagine having some artifact and defining the length of that thing to be exactly one metre. Then, relative to that hypothetical situation, we don't know what a meter exactly is. If we were to reproduce the same length standard ,many tmes over using the defintion in terms of the speed of light and we could directly measur ethe length difference using some other technique suitable for measuring very small distances, then we would find a statistical spread. But, as I wrote, this is also the case for the old definition of the metre.

What is of more fundamental importance, I think, is that the speed of light is what you can call an irrelevant scaling constant, just like the factor 1 in front of dq in the equation dU = dq - dW. While you can say that this factor of 1 has a fundamental importance, as it defines the equivalence between heat and other forms of energy, it is still a trivial constant. The speed of light has a similar status. This is why it is possible to define units to give it some arbitrary fixed value. Count Iblis (talk) 14:51, 4 September 2009 (UTC)

Count Iblis: I'll take at face value your analysis of natural units, or whatever is the exact technical name for this topic. However, the 1983 definition seems to involve a fundamental change, in replacing length measurements with time measurements. The speed of light in SI units is c₀ = 299 792 458 m/s regardless of measurement improvements, or indeed regardless of whatever the real speed of light might be. The metre just adjusts to make this so. That doesn't seem to me to make the actual speed of light a trivial matter, but it does place the actual speed of light outside the SI system of units. Do we agree? Brews ohare (talk) 15:23, 4 September 2009 (UTC)

I think you have a point only in an "agnostic" setting, where we forget about the current theoretical motivations behind all this. If you consider theories in which lengths and time intervals are not related as we think they are via the speed of light and that they arise independenly from each other in some way, then you could perhaps have a fundamental length standard and a separate fundamental time standard and then perhaps it is not the case that the speed of light is constant under all imaginable circumstances.

In the current theoretical paradigm there exists a fundamental space-time interval ds^2 = c^2 dt^2 - dx^2 (in one dimension) which is the fundamental invariant quantity and it realtes time intervals to dnstances the relation being a matter of the choice of units which fixes the speed of light c. Then although you can have a physical time standard and another physical length standard, if they are "good standards" they will always be related to each other, unless the fundamental paradigm of the metric space-time structure breaks down.

So, it is like having two length standard that according to theory should be equivement. Now, these to different length standards may involve compeltely different experimental techniques, so the ratio is then predicted to be some constant by theory, but experiments will always have some error. Then, defining the two physical quantities to be the same up to a factor (or equivalently assinging a exact number to the conversion factor), is a matter of declaring one's faith in the theory. Count Iblis (talk) 18:49, 5 September 2009 (UTC)

But the fine structure constant is not measured my measuring its factors and multiplying them together; if you do that, you obtain much larger error bars than you actually could, because the errors are not independent. The main cause of uncertainty in the value of e is that we don't exactly know how much a coulomb is, and that is because we don't exactly know how much a kilogram is. The main cause of uncertainty in the value of ħ is that we don't exactly know how much a joule-second is, and that is because we don't exactly know how much a kilogram is. These mostly cancel out. Indeed, the value of e has a relative uncertainty of 2.5 x 10^-8, that of ħ one of 5.0 x 10^-8, and their correlation coefficient is 0.9999; the relative uncertainty of α is 6.8 x 10^-10.[4] --___A. di M. 16:46, 4 September 2009 (UTC)

Brews, I read your little page and I agree except in using the term "conversion factor". When you use a term like "conversion factor" you're invoking in people's minds a set of ideas and examples, and these are mostly sorta different and misleading. Just replace the term "SI conversion factor speed of light" with "numerical value of the speed of light in meters per second" and I totally agree with what you wrote. Yes, the constancy of the speed of light is different from the constancy of "the numerical value of the speed of light in meters per second".

I don't know whether there's some rigorous and universal and exact definition of the term "conversion factor", and whether what you're saying qualifies, but whether or not it's accurate to call it a conversion factor I definitely think it's unhelpful to call it a conversion factor in this aspect.

[There's a different issue, which is whether the speed of light in special relativity is a "conversion factor" between space-units and time-units. It is, I definitely agree with this. But this is unrelated to the number 299792458 and unrelated to what Brews is talking about and what I'm talking about here.] --Steve (talk) 21:26, 3 September 2009 (UTC)

Hi Steve. Thanks. Good points. I also noticed that the use of "conversion factor" occurs in special relativity, where it makes sense. I am not clear what the connotations of "conversion factor" are in the context of converting a transit time to a length. The term is used in this context by Jespersen, by Wheeler and by Sydenham. That makes it easy to find sources for the idea that use exactly the same words, a sine qua non for the likes of Dicklyon. I am afraid that your term "numerical value of the speed of light in meters per second" isn't sufficiently different from what might result from a measurement, where here we are dealing with a defined convention. Any more thoughts?? Brews ohare (talk) 21:37, 3 September 2009 (UTC)

Brews asked that we respond to his article User:Brews ohare/Speed of light (Example). That seems fair enough. The problem is with the first paragraphs:

Take two points A & B. Suppose they are some fixed distance apart. (The actual distance between A & B can be measured, for example, using interferometry to determine the separation in units of wavelengths of some atomic transition). Suppose (hypothetically) measurement skills increase and the transit time of light between points A & B is measured to be a time t_AB that is a slightly shorter time than previously measured with older technique.

In that case the real speed of light as determined from the relation real speed = (actual distance between A & B)/ t_AB will be measured as larger, because points A & B have not changed position, and the time-of-transit t_AB has shortened.

The problem is that the statement:

(The actual distance between A & B can be measured, for example, using interferometry to determine the separation in units of wavelengths of some atomic transition)

is false. You are assuming a measurement of the 'actual distance' A to B that is more precise then ct. If we had a way to do that we would be using it instead. There is no measurement technique that can measure this 'actual distance' in meters other then ct or something that is calibrated to ct. Trying to measure the actual distance in any way separate from ct results in a number with a slightly different unit then the actual meter = ct_1m; ie the number will have meaning only to the precision that your personal definition of the meter agrees with ct_1m. Measuring a more precise value for t_AB does not give a more precise value of c; rather it gives a more precise value of the actual distance (in meters).

Prove to me that 'the actual distance between A & B can be measured' (in meters) any method independent of ct_1m and I will join you in this fight.TStein (talk) 21:53, 3 September 2009 (UTC)

TStein: You are right, if we could measure distances more accurately, we would do that. The switch to times-of-transit was predicated upon the greater accuracy of time measurements vis-à-vis length measurements. But this discussion is not about metrology decisions and available technology.

For the purpose of this discussion we may assume hypothetically that the distance measurement using interferometry or some as yet to be discovered technique is super-accurate, because this is a thought experiment, not related to what technology can do today. All we need for the discussion is to establish that length measurements independent of time measurements are doable, that is measurements like counting fringes that do not depend upon c t. And of course, the pre-1983 measurements of c that led to 299 792 458 ± 1.4 m/s are an existence proof that such independent measurements of length are possible, because that is where this number came from. It also is not necessary that this length be measured in metres. In fact the argument is based upon two measurements, one in metres, and one in units defined independent of c such as wavelengths of an atomic transition, determined e.g. by counting fringes.Brews ohare (talk) 00:12, 4 September 2009 (UTC)

Martin started this discussion item to ask for help from knowledgable physicists at Speed of light. He did not do it to open a new front to recreate the battle bewteen Brews ohare and his intransagent arguments in favor of his own untennable thesis against (almost) everoyne else giving the same responses that others have already given, in addition to the 8 or so other talk pages where this same battle has been fought, always resulting in a consensus of almost everyone that Brews' thesis if fundamentally incorrect (not merely flawed in particulars) and that Brews' sources do not support his position. This has been going on for most of 2009, but with increasing intensity for the past 2 or 3 months. The fact the Brews, in good faith, genuinely believes that he is right, and that everyone else, including the physics cabal, is wrong, is not sufficient to justify the commotion that Brews causes, the time of other editors that he takes up, or the frustration that he has caused at Speed of light and the resulting beakdown of collaborative editing and discussion there. He has had more than a full hearing of his ideas, many times over, but refuses to accept the consensus of editors who are better informed than the is. To quote Dicklyon, it is time to stop feeding this troll. —Finell (Talk) 00:46, 4 September 2009 (UTC)

Finell: I thought the discussion here was progressing and matters were becoming clearer. Certainly this is not a forum for your incorrect progress report, intemperate language, and uninvited advice. Brews ohare (talk) 05:30, 4 September 2009 (UTC)

moot point

The reason the meter-poorly-defined crowd is wrong is simple: WP:CRYSTAL. The consensus is, right now, that the speed of light is a constant in all reference frames and that is why the meter can be defined in terms of it and some arbitrary definition of time (it doesn't matter if the standard for the second changes because shorter or longer standard seconds just correspond to proportionally shorter or longer standard meters). If the speed of light is not a constant, then modifications to our definitions will have to be made. However, this has not happened, and it is not Wikipedia's place to point out this.

ScienceApologist (talk) 00:49, 4 September 2009 (UTC)

Yes, if the speed of light changes the metre will change. However, its definition will remain the same. The number c₀ = 299 792 458 m/s will remain the same. That is why I don't find it helpful to call the unchangeable numerical quantity 299 792 458 m/s the "exact speed of light" because it doesn't change when the real speed of light changes. However, this number 299 792 458 m/s represents a different speed when the speed of light changes because the metre changes. Brews ohare (talk) 05:57, 4 September 2009 (UTC)

He is saying that you are wrong about this, Brews, as has everyone else who, unlike you, understands the subject. You see a problem that the value of c "doesn't change when the real speed of light changes". However, as you have acknowledged, the real speed of light doesn't change, but is constant, for you to say otherwise in contrary to physics and to all experimental observation. So the problem that you imagine does not exist. Please stop spewing this pseudo-scientific nonsense all over Wikipedia. Please stop acting like the common crank. Please stick to subjects that you actually understand, like (presumably) electronic circuits and devices and making beautiful circuit diagrams and graphs, and stay away from theoretical physics. If nothing else, consider WP:SNOWBALL and just give up your futile crusade. Isn't it terribly frustrating for you not to be able to persuade other Wikipedians that what you keep saying, over and over, makes any sense? Wouldn't you be happier in a community that would be more receptive to your speculations, like Crankopedia or the web cite where David Tombe, retired science teacher, self-publishes his pseudo-science essays? —Finell (Talk) 09:14, 4 September 2009 (UTC)

Note now that Brews has finally "got it", he insists that he merely wants to clear up the "misleading" language. He'll never admit that he was just plain wrong.--Michael C. Price ^talk 10:51, 4 September 2009 (UTC)

Finell: You are simply fuming about nothing. Get help. Brews ohare (talk) 14:27, 4 September 2009 (UTC)

It seems to me that Finnel should be blocked for his insulting comments here. Where are the wikipedia police? I think you guys are wrong, wrong, wrong, and being nasty doesn't make you right. Wikipedia needs to ban some of you for being insulting uncivil and just plain mean. The word crank should never be used here or in any other discssion to describe anothers persons viewpoint. It is a value judgement and reveals that the person using it has no valid argument to offer. So instead of being uncivil and nasty why dont you simply realise that Brews is right in what he is saying. I doubt you guys are informed enough to edit any physics articles from what I read here.72.64.63.140 (talk) 13:16, 4 September 2009 (UTC)

Thank you David for that. By Brews being right I assume you refer to his latest position statement:

"Yes, if the speed of light changes the metre will change. However, its definition will remain the same. The number c0 = 299 792 458 m/s will remain the same."

Everybody here agrees that this is correct.--Michael C. Price ^talk 13:30, 4 September 2009 (UTC)

Michael C. Price: Well, I'm glad you and I agree. It seems optimistic to think Finell and many others agree. Brews ohare (talk) 14:27, 4 September 2009 (UTC)

No, I think you'll find they all agree, since this what they've been trying to explain to you all along. --Michael C. Price ^talk 15:43, 4 September 2009 (UTC)

Arbitration request filed

Admin Jehochman filed a request for arbitration concerning these disputes: Wikipedia:Arbitration/Requests/Case#Speed_of_light. Participants in this discussion, in addition to those named as parties, may wish to comment. In addition, your continued help in improving the Speed_of_light article and in talk page discussions is still very welcome. —Finell (Talk) 23:04, 6 September 2009 (UTC)

Missing (highly-cited) physics & astronomy related journals

From the latest WP:JCW dump:

• Earth and Planetary Science Letters
• Planetary and Space Science
• Space Science Reviews
• Platinum Metals Review
• Physikalische Zeitschrift
• Advances in Space Research
• Geochimica et Cosmochimica Acta
• The Minor Planet Bulletin
• Reviews in Mineralogy and Geochemistry
• Journal of Volcanology and Geothermal Research

There's not a lot of them, so I took the liberty of reaching a bit wider than I normally would have. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 23:57, 7 September 2009 (UTC)

Hilbert space up for GA

Hilbert space has been nominated for GA. Note that anybody can do the GA review, this does not require an special privileges. I don't have time to do the GA review this week, but maybe somebody in this project will. In any case I think a crucial point will be the accessibility to non-mathematicians and whether it covers the non-mathematical aspects of the subject sufficiently. For either point it would be good to have the opinion of (less mathematical minded) Wp:phys members. (TimothyRias (talk) 11:58, 8 September 2009 (UTC))

As the one who nominated the article to begin with, I second the above. The input of members of WikiProject Physics will be especially valuable in assessing the article and/or bringing it up to the GA specifications. Sławomir Biały (talk) 17:05, 8 September 2009 (UTC)

Beta function disambiguation.

Looking for feedback at talk:Beta_function#Disambiguation. Thanks. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 02:30, 9 September 2009 (UTC)

Digit grouping style (notice of discussion)

In case anyone is interested, a discussion about digit grouping styles is taking place at Village Pump (policy), related to this question:

On Wikipedia, should the selection of digit grouping styles depend upon regional and topical conventions used in the English language?

Please refer to that page for details and discussion. TheFeds 03:58, 9 September 2009 (UTC)

Speed of light arbitration opened

It would be very helpful if editors who were not involved in the disputes over Speed of light that led to the arbitration gave evidence at Wikipedia:Arbitration/Requests/Case/Speed of light/Evidence, especially to give the arbitrators some impartial guidance about the physics. I include the few editors who recently came to Speed of light and made helpful edits and comments, but who weren't participants in the long term battles, as uninvolved editors. Thanks. —Finell (Talk) 20:54, 9 September 2009 (UTC)

User:Casimir9999

I just don't know how to handle the matter of User:Casimir9999. This editor's only contributions so far have been to add "references" to articles. Most of the time these references look like rubbish that was dug up by a keyword search in google. I've gotten rid of many of the references that were obvious junk, overt pseudoscience, and so forth. But sometimes I have trouble assessing the quality of the sources. And I'd really like to assume good faith, but my sense is that this pattern of editing is not beneficial to the project. There has already been an RfC that simply died for lack of sufficient interest over at Wikipedia:Requests for comment/Uruk2008. Could someone here please look into the matter. Thanks, Sławomir Biały (talk) 06:25, 11 September 2009 (UTC)

I noticed this a few days ago (see above). If I'm reading WP:DR correctly - and it's quite possible I'm missing something - what we're supposed to do now is a) ask Casimir9999 to stop adding random references, explaining WP:RS and related policies to them, b) report their actions somewhere like WP:WQA (we're not at the admin-jackboots stage yet), and if they persist in adding demonstrably bad references after repeatedly being asked not to, slap on warning templates and report them at AN/I if they persist. I've had enough exposure to drama for the time being, so someone else can handle this (otherwise I would have talked with them at the time I made the post linked above). --Christopher Thomas (talk) 06:51, 11 September 2009 (UTC)

I have posted a note on the editor's talk page. This case was rejected at AN/I twice before because it is very difficult to establish that this behavior is disruptive enough to warrant administrator intervention. At any rate, should someone go through the recent edits to vet the added references? Or should the editor be reverted wholesale? I am not confident with the editor's ability to understand the sources he is adding, but in many cases I myself don't understand the subject well enough to make that assessment. Sławomir Biały (talk) 12:13, 11 September 2009 (UTC)

I checked (and removed) one link -- it was a dead link.--Michael C. Price ^talk 13:26, 11 September 2009 (UTC)

limit of super-heavy elements

At Extension_of_the_periodic_table_beyond_the_seventh_period#End_of_the_periodic_table, we say that the limit of neutral atoms is around Z = 176, and of nuclei at Z = 210. At untriseptium we state that 137 is the limit. Both require up-to-date referencing, and review by s.o. who knows what they're talking about (assuming that anyone knows what they're talking about on this subject). kwami (talk) 20:53, 27 August 2009 (UTC)

Okay, this has been partially straightened out, but it needs to be reviewed, and hopefully we can come up with a better citation for the Z = 210 limit than the Encyclopedia Britannica! kwami (talk) 05:45, 28 August 2009 (UTC)

-If you use the graphical limit, element 218 could easily be explained as the drop point, since it's the end of the 9th period in a naive attempt to fill the period, and visually for a layman it would make a neat endpoint. Just redirect articles 211-218 to an article on the end of theoretical nuclear size. 76.66.196.139 (talk) 08:23, 12 September 2009 (UTC)

Fusion power

Could someone spare a moment to review these three edits at Fusion power (edit | talk | history | protect | delete | links | watch | logs | views)? More eyes would be useful (further actions on my part would constitute edit-warring). --Christopher Thomas (talk) 19:08, 10 September 2009 (UTC)

Talk:Fusion power could still use a few more eyes, if anyone has time to spare. --Christopher Thomas (talk) 00:24, 13 September 2009 (UTC)

Ladder Paradox

Hello - we have an ongoing discussion at the Ladder paradox page and would appreciate any input. The question is whether the "man falling into a grate variation" should be kept, improved, or discarded. PAR (talk) 22:43, 13 September 2009 (UTC)

Has anyone searched for secondary sources on this issue yet?  Cs32en  23:39, 13 September 2009 (UTC)

List of CERN experiments

See Wikipedia:Bot requests/Archive 30#List of CERN experiments for more info and give feedback. Especially, are there more than NA and WA experiments? Headbomb {^ταλκ_{κοντριβς} – WP Physics} 17:51, 14 September 2009 (UTC)

Accelerating universe and Holographic principle

A single user (User:Systemizer) is trying to add information to these articles about recent research which has been featured in popular magazines. Unfortunately, the additions are very poorly sourced and potentially misguided. Could you track down the original research papers and help with resolving this issue? --Issuesixty soulsgreat (talk) 20:55, 14 September 2009 (UTC)

Can someone comment on Modified Bragg diffraction in quasicrystals?

I am asking for knowledgeable comment on that article here because I have no real knowledge on the subject, however the article leaves me perplexed because its main and practically only author, User:Bourdillona is most probably the same guy on whose papers the article is based (4 out of 6 references are of his own, among those there is a self-published book and and apparently a self-published article). The author seems to have academic credentials, but I would sleep better with someone knowledgeable having a look into it, just to be sure it is not biased or a fringe theory. Thanks! --Cyclopia (talk) 08:43, 10 September 2009 (UTC)

It's an interesting idea, and certainly sounds like it could be valid. My main concerns are that it's an author pushing their own work (which means the reference list may give undue weight to their work rather than other researchers), and that this may or may not be accepted by the rest of the optics community (if it's too early, it doesn't belong in Wikipedia). I'd suggest politely contacting the author, saying that while you value their contributions, referencing of one's own works is heavily frowned upon due to WP:COI, and asking their help building a broader reference base. Phrase this as asking for their expert advice in finding such references, and they'll almost certainly be very helpful (we researchers can be vain that way). Similarly, if nobody else has written about this approach/result, couch its exclusion in terms of "we look forward to including this in Wikipedia when enough citations from other researchers have accumulated" (i.e., it's not a rejection, it's a deferred acceptance). I hope this advice is useful to you! --Christopher Thomas (talk) 15:05, 10 September 2009 (UTC)

Thanks a lot for your opinion, it agrees with mine and your advice on how to handle the situation tactfully is very helpful. I'd say that there is nothing invalid in principle in carefully referencing one's own works (I too did, I admit), taking maybe care of WP:UNDUE problems, but another thing is not simply citing but building almost a whole article on that. I will try to contact the author as tactfully as possible, and let's see. Only problem I see is I am not a physicist but a biologist (I just stumbled there looking at the quasicrystal article) and maybe I am not the best person to do that. --Cyclopia (talk) 16:25, 10 September 2009 (UTC)

I was thinking, maybe a good idea is proposing a merge with quasicrystal, which would probably make sense nonetheless? --Cyclopia (talk) 16:28, 10 September 2009 (UTC)

There's a small section in quasicrystal that deals with it already - inserted by the same author. I can see it being a standalone article, or being merged into both quasicrystal and bragg diffraction, but without references to works by different authors, it has to be treated as a minority scientific viewpoint with regards to weight in the latter two articles. --Christopher Thomas (talk) 16:54, 10 September 2009 (UTC)

A Google search finds some additional sources for the topic. [5] [6] I'm not a specialist, but they do not appear to be fringe stuff. I'd suggest to contact the editor and simply propose to add more references to the article.   Cs32en  23:51, 13 September 2009 (UTC)

I'll take a more detailed look at these on Monday, and ping the editor in question. Per above, they're probably the best qualified to search for this sort of thing, and will likely be willing to help if approached correctly. --Christopher Thomas (talk) 01:49, 14 September 2009 (UTC)

Update: Work is eating my life again, so this may or may not get done this week. --Christopher Thomas (talk) 20:28, 16 September 2009 (UTC)

I've merged to Quasicrystal, which could also do with some cleanup if anyone can get around to it. Physchim62 (talk) 20:51, 16 September 2009 (UTC)

Krasnikov tube

Krasnikov tube (edit | talk | history | protect | delete | links | watch | logs | views) could use a look by one of the GR-types lurking here. Due to removal of copyvio material, the description is now a bit stubby. I've filled in a bit of it, but it needs a paragraph or two covering the detailed structure of a tube, and the reference list at the bottom needs to be inlined into appropriate parts of the text. --Christopher Thomas (talk) 15:52, 16 September 2009 (UTC)

|astro=

After deleting Category:Pages within the scope of WikiProject Physics (WP Astronomy Banner) as an empty category, TimothyRias wrote a message in my talk page that the template "is used for a legacy feature of the {{astronomy}} template, which allows the astro=yes switch to tag articles which should also have the {{physics}} template. This category lists the articles that use that switch (which should then be tagged and assessed.) If this seems like a roundabout way of doing things, thats because it is. But as long as that option exists on the {{astronomy}} template, this category should exist to record its use."'.

So there are some things:

• This parameter doesn't appear in the manual and it's use is not explained,
• None used this parameter the last 20 days at least.
• I think this parameter totally unnecessary. If an article was to be tagged additionally with another banner then this is what it has to be done. I see no reason that some editors add the parameter and other finish the job.

I wrote the same message some days ago in Template talk:Astronomy.

-- Magioladitis (talk) 22:39, 17 September 2009 (UTC)

Like TimothyRias said, it's a legacy feature. The category should be there until it's removed from the template, IMO. I personally don't have an objection to removing that old thing from the astronomy template, but that's up to the Astronomy project more than it's up to the Physics project IMO. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 23:57, 17 September 2009 (UTC)

BTW, my last edit summary was "ew", which was a typo for "re", not an expression of digust. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 23:58, 17 September 2009 (UTC)

No problem. Let's centralise the discussion in Wikipedia talk:WikiProject Astronomy then please. -- Magioladitis (talk) 01:12, 18 September 2009 (UTC)

Zero Point Field

Hi.

I've recently noticed problems over at the article Zero-point field -- namely it seems biased to champion certain alternative theories about ZPF and cosmology. Yet of course Wikipedia is not for championing any theories, it's supposed to be neutral. Most of it appears to be being written and defended by a group of anon editors and there's uncited statements that look like they may be original research. I already have tagged it with neutrality dispute tags and started discussions on the talk page. What do you think should be done here? I'd think those theories should be gotten out of the article or reduced to a minor section, with citations to outside-WP sources if any can be found for any relevant claims. If the theories are themselves worthy of note (I've seen theories by Puthoff, Haisch, etc. mentioned), then they should be written about in their own articles or on other articles more relevant to them, yet of course in a neutral manner free of original research. And then the main focus of the article should be simply pointing out the relevant concepts from quantum field theory. Some of it seems to be a rehash of the article zero-point energy (while zero-point field is not just a rehash of ZPE, it has to do with ZPE in quantum fields, so it's more specific). I can't find much in there relating to the quantum-field-theory stuff... mike4ty4 (talk) 00:49, 20 September 2009 (UTC)

I went looking for an old version to revert to, but the article seems to have been a disaster since it was created in mid-2007. I think it should be merged into vacuum state—by which I mean it should be replaced by a redirect to vacuum state, since there's probably nothing worth saving. -- BenRG (talk) 02:06, 20 September 2009 (UTC)

Hmm. Possibly. But the problem is, they could always revert it and then a revert war could start. I've got some threads going over on the page's talk page, and am wondering if anyone here would like to add input or something. mike4ty4 (talk) 04:17, 20 September 2009 (UTC)

In addition, they seem to be threatening to remove the NPOV dispute banner soon, too, and I don't want to get into an edit war on that too. But I think something needs to be done about this page as it doesn't seem up to snuff with WP policy. mike4ty4 (talk) 04:24, 20 September 2009 (UTC)

Poincare better than Einstein edits by Schlafly?

FYI and FWIW, user Schlafly (talk) seems to be pushing some kind of agenda at [7], [8], [9], [10], [11], [12], [13]. I undid some of the edits and made some changes. DVdm (talk) 09:02, 25 August 2009 (UTC)

Schlafly is doing this since July.... --D.H (talk) 14:07, 25 August 2009 (UTC)

To commit the association fallacy by way of explanation, Schlafly's brother's site Conservapedia has a long history of linking relativity with moral relativism, and thus evil to be defeated. It could be a family thing. AlmostReadytoFly (talk) 09:15, 26 August 2009 (UTC)

Good grief. DVdm (talk) 09:23, 26 August 2009 (UTC)

It's beginning again, see the contributions of Schlafly and Flegelpuss. I've reverted most of their edits. --D.H (talk) 08:54, 20 September 2009 (UTC)

I noticed. This new wp:SPA sounds awfully Arian. Checkuser might reveal something nasty. DVdm (talk) 09:03, 20 September 2009 (UTC)

Is this a page for personal attacks on me? If you have some disagreement with my edits, then I suggest that you address my actual edits. Roger (talk) 10:10, 20 September 2009 (UTC)

I think all contributors should try to resolve this conflict at Talk:History of special relativity#Local time, which might be a better place. --D.H (talk) 12:02, 20 September 2009 (UTC)

Astronomical system of units

User:HarryAlffa has proposed that solar mass , jupiter mass , earth mass , lunar mass all be merged into Astronomical system of units. see Talk:Astronomical system of units.

76.66.196.139 (talk) 06:21, 22 September 2009 (UTC)

Poincaré-POV-pushing

User:Flegelpuss tries to push the (non-mainstream)-notion that Poincaré invented relativity before Einstein (see also this discussion). See his edits in History of special relativity, Introduction to special relativity, Lorentz ether theory, Annus Mirabilis papers‎. I already reverted those changes, but they were reverted again. Maybe an administrator can help... --D.H (talk) 15:50, 20 September 2009 (UTC)

Yes, this Flegelpuss (talk · contribs) obviously (see my [14] promptly resulting in [15] and [16]) is a highly experienced single-purpose -let's get rid of Einstein- account without any fear for risking wp:3rr sanctions. Those who don't play by rules can only be plaid by administrators. DVdm (talk) 17:39, 20 September 2009 (UTC)

Looks like they created two more special purpose accounts (aka Schlafly-sock/meat puppets):

• Cardinality (talk · contribs)
• Iphegenia (talk · contribs)

Most interesting edits: [17] and [18] bringing in and sustaining Bjerkness from [19] and [20]. From website [21] - No comment needed I guess?

As I predicted, Flegelpuss (talk · contribs) got blocked for 3rr. These are next and others will follow. Interesting.

DVdm (talk) 06:40, 22 September 2009 (UTC)

Yes, I reverted those edits. Maybe semi-protection of History of special relativity is the solution... --D.H (talk) 13:00, 22 September 2009 (UTC)

Semi-pr protects against anonymous edits only. And this is not just one article. This kind of attack needs wp:checkuser and someone with a lot of time and patience. DVdm (talk) 13:08, 22 September 2009 (UTC)

Getting a checkuser usually takes some evidence of abuse. The Flegelpuss (talk · contribs) was created on 19 September and blocked for edit warring on the 20th. Now Cardinality and Iphegenia were created on 21 September, but seem not to have done very much so far. I asked another admin about this but the answer on whether blocks are justified is not yet clear. If Cardinality and Iphegenia get into edit wars then it becomes an easier question. Someone made a remark about this Italian website. Is the use of that site an indication of POV editing? EdJohnston (talk) 16:00, 22 September 2009 (UTC)

Well, it is a world-famous crackpot site.

By the way, after his block expiration, Flagelpuss (talk · contribs) started to revert again. DVdm (talk) 16:29, 22 September 2009 (UTC)

Planetary nebula

I have nominated Planetary nebula for a featured article review here. Please join the discussion on whether this article meets featured article criteria. Articles are typically reviewed for two weeks. If substantial concerns are not addressed during the review period, the article will be moved to the Featured Article Removal Candidates list for a further period, where editors may declare "Keep" or "Remove" the article's featured status. The instructions for the review process are here. Tom B (talk) 20:41, 22 September 2009 (UTC)

Gravitational potential

Could a few other people please take a look at Gravitational potential (edit | talk | history | protect | delete | links | watch | logs | views) and its talk page? There's an ongoing dispute between Fransepans (talk · contribs) and a couple of other editors (myself included) over whether (and why) gravitational potentials and gravitational potential energy are considered to be negative. --Christopher Thomas (talk) 05:07, 23 September 2009 (UTC)

Update: This seems to have been resolved amicably. Sorry for the trouble (and thanks for the editing pass!). --Christopher Thomas (talk) 07:35, 23 September 2009 (UTC)

Rayleigh's method of dimensional analysis

Rayleigh's method of dimensional analysis could use a couple minutes of work to clean it up. I know 0 about the subject and have not been able to get a good enough grasp of it through google. Thanks for any assistance.Cptnono (talk) 02:53, 25 September 2009 (UTC)

Discussion watchlist

I don't know if you noticed, but there is a new link in the WikiProject Physics tabs called Current Discussions. It follows all the talk pages of tagged with {{physics}}, but right now it is buggy (as you'll see if you click the link. Fixing this would allow this sort of watchlist to be deployed on a larger-scale (AKA all wikiprojects could have one), and would fix this projects watchlist. If you could vote on Bug#16129 (simply create an account, then vote) that would make that fix quicker to come around. Thanks. Headbomb {^ταλκ_{κοντριβς} – WP Physics} 05:38, 25 September 2009 (UTC)

Zero-point field: Getting consensus on what to do

Hi.

It seems that per the discussions on the Talk:Zero-point field page (go to the thread "timetable for resolution of dispute"), the guy seems to have decided to stop editing, however made seeming warnings about "consequences" from the Wikipedia community if I go and "delete" things from the article. So what I'd like to do is ask here, or find out where would be the best place to ask, for trying to find out what the best consensus of the Wikipedia community would be for the action here. I'd suggest also to read my discussions (threads "Casting the neutrality of this into dispute. Time for overhaul?" and "Timetable for resolution of dispute") and those of other people on the same talk page, as well. He was saying that I should go and dig up sources to address the verifiability, etc. concerns myself, but seemed not to hear what I said about not being able to do that research due to my situation and also not to hear or at least focus on what I was saying about the neutrality concerns, instead focusing more on the sources question.

Would you have any answers? mike4ty4 (talk) 20:52, 22 September 2009 (UTC)

I'd say redirect it. And I did :). The zero-point field article has never undergone collaborative editing. Please see the history, but this is how it looks to me. In May 2007, it was started by user:Sadi Carnot. Two users I believe have expertise in physics, user:Pjacobi and user:Linas, attempted to redirect it to Vacuum state. The article was briefly made into a stated pseudoscience subject by Linas. Not long after, all three of these editors left the article.

Enter the unregistered editor 75.6.xxxx / 75.7.xxxx. This editor has made almost all contributions for the last two years (!). Further, the name he uses is the same as a reference in the article (see footnote 11 here). And, surprise surprise, it's not from a reliable source either. The article has been a de facto playground of original research for a user who has never declared an obvious conflict of interest.

Mike4ty4 has done a yeoman's job challenging on the talk page, and posting here and to the fringe noticeboard, but hasn’t got much response. I went ahead and re-redirected to Vacuum state. See the talk page for an idea of the bizarre twists and turns of the article. It would be good if others could help watch that the article does not return to anything resembling its long, sad state. Tim Shuba (talk) 20:42, 28 September 2009 (UTC)

Redlinks that could use your help

There's quite a large list of redlinks at Wikipedia:Requested_articles/Natural_sciences#Physics. If there are any other Wikiprojects which could help with this list, please let them know as well. Thanks, shoy (reactions) 17:39, 30 September 2009 (UTC)

Mendel Sachs

He was a professor of physics at SUNY Buffalo for 30 years, now retired. He rejects post-1920s physics for philosophical reasons and claims to have realized Einstein's dream of explaining everything with classical fields. Nobody listened to him. He now has a blog where he complains about the blinkered establishment. His Wikipedia article was mostly written by SJRubenstein (talk · contribs), who also seems to be the only commenter on Sachs's blog (every blog post has 0 or 1 reply, and when there is one reply it is always by Steven Rubenstein). The article's only reference not written by Sachs is Subtle is the Lord, which doesn't mention Sachs (according to Google Book Search). Google Book Search did turn up a few mentions of his name in print. Does he meet notability requirements? It seems like a borderline case. If he does, the article needs a rewrite. -- BenRG (talk) 20:08, 30 September 2009 (UTC)