Talk:Theory of relativity
- 1 Mass section revision
- 2 "Beautiful, but not robust" Quote
- 3 Mass Increase Section
- 4 Great article
- 5 Special and general relativity
- 6 Moral Relativism line needs to go.
- 7 not "attributed" to Einstein.
- 8 Old version
- 9 Merge with draft
- 10 This isn't Wikipedia
- 11 Why was quote about Dicke removed?
- 12 Muon experiment from another point of view
- 13 Ref: Despite being one of the most accomplished physicists in the 20th century, Dicke was never given a Nobel Prize.
- 14 Government support of relativity research problems
- 15 Relativistic mass
- 16 GPS edit
- 17 Criticism of LIGO
- 18 Other issues
- 19 Theory of Relativity (moved from User talk:Aschlafly)
- 20 Question about GPS
- 21 Skepticism
- 22 Nasa on spacecraft and relativity
- 23 Reversion explained
- 24 Nobel Prize Contradiction
- 25 legal right to abortion
- 26 Paradoxes? Nobel Prize?
- 27 Questions
- 28 My edits
- 29 New Edits, Proposed edits
- 30 Einstein's Cross/Ring and Gravitational Lensing
- 31 Science And Math Facts That Prove Einstein's Blatant Error In His Relativity Theory
- 32 More regarding the criticism of LIGO
- 33 General Questions
- 34 Non-Locality and Quantum Field Theory
- 35 Proof
- 36 Complex equations of relativity
- 37 Quantum Field Theory/Changes to the Intro
- 38 Some clarifications I hope will be helpful
- 39 Comments on Newtonian Mechanics
Mass section revision
Regarding my earlier revision of the "mass increase" section: I was careful not to change anything in that section without first asking permission. I explained on the talk page the reason for wanting to make the change, and more or less what I thought should be said. A user named "RSchafly" gave me the go-ahead to make the change, which I did. And I didn't do it in secret. I announced the change as soon as I made it, over a month ago.
Now you've decided you don't like it, and instead of asking me to fix it, or even saying simply "thanks, but no thanks", you dismiss the whole thing as "claptrap". Excuse me, but that is incredibly rude.--Lemonpeel 21:51, 15 June 2009 (EDT)
- You're right. I was rude, and I apologize.
- That said, you deleted my clearer explanation and obscured the fact that the nonsensical "relativistic mass" was taught and believed by physicists for more than a generation. E=mc2, which is still repeated and taught in Pavlovian manner by relativists, is simply false as a general equality. You also inserted non-scientific justification like "language" and "natural" that have no place in a matter of physical observation.--Andy Schlafly 22:43, 15 June 2009 (EDT)
"Beautiful, but not robust" Quote
The beginning of this article provides a quote from Steven Weinberg on quantum field theory saying that QFT is "beautiful, but not robust." The way the quote is given here makes it sound like this comment was intended as a criticism of QFT. I looked up the source of the quote, and it appears (to me at least) that the quote was not meant as a criticism at all. I think what Weinberg was saying is that QFT has to satisfy a lot of strong properties, such as gauge invariance and renormalizeablility. It is in that sense that QFT is not robust. But the point I think Weinberg is making is that this gives us hope for finding a grand unified theory, since we don't have much wiggle room in the kinds of theories we can propose.
Given that, I propose the quote be removed, since its likely meaning is out of context with the way the quote is being used. --Lemonpeel 12:00, 15 June 2009 (EDT)
- The quote speaks for itself, and your comment is unfortunately incoherent. A lack of robustness in a theory is obviously a weakness in the theory, not in the requirements for the theory. No, we're not going to censor the quote.--Andy Schlafly 17:51, 15 June 2009 (EDT)
Well, clearly the quote does not speak for itself, since it comes at the end of a long lecture praising the progress that has been made in QFT. As far as lack of robustness being a weakness--it seems like this is the exact opposite point Weinberg is trying to make. He discusses, for example, how pleased he was when people discovered the need for theories to be renormalizeable. His point was that this was a hard condition for a theory to satisfy, and therefore imposing that condition greatly narrowed the search for the correct theory. I hope that clarifies the point I was trying to make. --Lemonpeel 21:19, 15 June 2009 (EDT)
- "Lemonpeel", your statement is again incoherent. You state, "clearly the quote does not speak for itself, since it comes at the end of a long lecture praising the progress that has been made in QFT." The same could be said about some of our close-minded liberal editors. When one starts from zero, one can make infinite "progress" and still be virtually at zero.--Andy Schlafly 21:27, 15 June 2009 (EDT)
Can't argue with that logic.--Lemonpeel 21:54, 15 June 2009 (EDT)
Mass Increase Section
In the subsection on mass increase, it is claimed that the abandonment of the relativistic mass point of view "undermines" the famous equation . I find this statement rather odd. After all, the broader principle underlying this equation is that if is the 4-momentum vector of a particle, then the magnitude of is the same in all inertial reference frames and equal (in units where c = 1) to the rest mass of the particle. This remains true regardless of whether one uses the language of relativistic mass or not. As currently written, this subsection is liable to confuse anyone who is unfamiliar with the subject.--Lemonpeel 20:41, 25 May 2009 (EDT)
- Go ahead and fix it. RSchlafly 11:27, 26 May 2009 (EDT)
- Done.--Lemonpeel 13:37, 26 May 2009 (EDT)
1) Superb avoidance of difficult science in a scientific article. Best not to be confusing. 2) Nice attention on Eddington rather than the theory itself. 3) Good mind reading regarding Eddington's dreams. 4) Nice work ignoring the facts about things that have been inventing using GR such as GPS
And rather than simply be sarcastic, I will work on a better article over the weekend. One that actually discusses the science.
Special and general relativity
This article seems to combine the two. They are different ideas and need to be distinguished. JoshuaZ 19:21, 24 February 2007 (EST)
- Agreed. Separate articles would make more sense. I don't have time to do the necessary work right now, but if no one else does it I'm sure I'll get to it eventually. Tsumetai 10:11, 25 February 2007 (EST)
- If someone will split the pages, I'll help flesh them out.--ZLewis 10:42, 1 March 2007 (EST)
Moral Relativism line needs to go.
I have never heard anyone advocating moral relativism use either of the theories of relativity to do it. Actually, the only people who I've ever heard that from are relativity deniers like Fred Hutchison. Not only does that show a grave misunderstanding of the scientific theory, but also a misunderstanding of the phrase "moral relativism". In any case, you can't draw moral implications from scientific theories. When someone says that Einstein's theory of relativity implies some kind of moral relativism, they're really saying "The geometric theory of gravity allows me to internalize my moral decisions".
That line is ridiculous and irrelevant, and needs to disappear.
- I don't like it at all in its present form, but the word "relativity" is thrown around casually quite a lot and there might be justification for a section with a title like "what relativity is not."
- E.g. Scott Adams, author of the Dilbert comic strip, says "Einstein’s great insight was assuming reality was not fixed, and that everything was relative to the observer" and goes on to say "I have extended that thinking to people..."
- I think using Scott Adams as a reference or a jumping-off point for discussion really constitutes holding one's self to a dismally low standard. He's posted his own theories of physics to his blog a few times, freely admitting that he knows they're wrong and that he just takes pride in the fact that the layman can't successfully challenge them. In all honesty, moral relativism is a perfectly valid subject for an article, but it doesn't have anything to do with physics other than an unfortunate overlap of words and definitions in English. Putting this section in just makes the authors look like they're bristling for a fight. Willforpresident 21:25, 7 March 2007 (EST)
- What follows is interesting if not very profound, but dragging Einstein into it is not helpful.
- It just goes to show the value of jargon. When scientists give something a simple name like "relativity," people assume they understand it and misapply it. I'm just thankful that people aren't very familiar with mathematics or we'd be hearding about crop circles in Galois fields. Dpbsmith 12:50, 25 February 2007 (EST)
- I like the "what relativity is not" idea. Might be worth pointing out that relativity in physics didn't start with SR; there is such a thing as Galilean relativity, after all. Tsumetai 12:57, 25 February 2007 (EST)
This line must go. It is not relevant to the article. Have a disambiguation page for relativity. The citation is completely incorrect. The website http://www.moralrelativity.com/about1.html says nothing about general relativity influencing moral relativity. This article says 'Relativity has generated a huge following by advocates of moral relativism,' but the website http://www.moralrelativity.com/about1.html does not make any mention of this statement, therefore it is improperly cited. Citations are supposed to support claims, and this one does not. (Read the website for yourself). Also, just because relativity is a homophone in this case doesn't mean it belongs in an article of the (general) theory of relativity. Please make a disambiguation page because this is clearly in the wrong place.
I removed the moral relativity part from this article and placed it in a new article called Moral relativity. Relativity here is clearly just a homophone, and moral relativity is irrelevant to special or general relativity. To illustrate my point, see http://dictionary.reference.com/browse/relativity. Relativity in physics has a special meaning. Teji 00:38, 5 April 2007 (EDT)
- Folks, moral relativism is a big reason for the political support of types of relativity. It's obviously relevant to this article, and the above criticism only reinforces the need to include a reference. We can debate how to say it, but censorship is not an option here. Go to Wikipedia for that.--Aschlafly 01:31, 5 April 2007 (EDT)
- Okay, then that can go into the Moral relativity article, which now exists. There is no support for your claim. Neither is there a need for political support for a scientific theory. The way you describe it, moral relativity references this theory of relativity, not the other way around. The theory of relativity neither relies on moral relativity in any explanation of it or needs it to be mentioned for a complete treatment of the theory, and therefore it is inappropriate to add it here. I direct you again to the dictionary http://dictionary.reference.com/browse/relativity in order to clarify that relativity in this sense has specific meaning in the domain of physics, and arbritrary theories that share the word are not in this domain nor are related in any concrete way, simply being homophones. Teji 18:40, 5 April 2007 (EDT)
Someone added more about the moral relativity bit, so I put it in the right place: in the article on Moral relativity. The section says, "Advocates of moral relativity seized on the theory of relativity to legitimize their views," which is about moral relavitity and how they use the theory of relativity, not how the the theory of relativity involves moral relativity. I challenge the writer again to find a work on the physics theory that metions moral relativity at all. Just because a page mentions the theory of relativity does not make it a legitimate part of the theory itself, and as such, does not belong in this article. If anything, the Moral relativity article should make a link to this article, not the other way around. I am not sure the agenda here, but it seems that someone would like to promote moral relativity by attaching it to unrelated articles. Please add your information to the correct article in the correct place. Again, here is the link: Moral relativity. Go crazy. Teji 14:42, 6 April 2007 (EDT)
ASchlafly, you added the line "Advocates of moral relativity seized on the theory of relativity to legitimize their views" and gave a citation afterwards. If you read the page that you cite, you will see that the author merely uses Special Relativity to demonstrate how moral relativism works. He does not "seize" on the theory and does not use it to "legitimize" his view. Can you find a better source please? (or remove the sentence)
- I can't tell who or when this comment was made, because it lacks the signature (use the signature button above). But I will look for more sites about to support my statement, which should be easy to find. Frankly, I've never heard anyone doubt the statement.--Aschlafly 20:07, 8 April 2007 (EDT)
- Perhaps you've been listening the wrong people. No reputable explanations of relativity mention moral relativity. Find a reputable one. Don't look for moral relativity explanations that include physics relativity, because that information belongs in Moral relativity, not here. You are researching the wrong topic. Repeat: look for information about the physical theory of relativity and see if you can find one that mentions moral relativity (not pages that talk about moral relativity and mention physical relativity). Furthermore, anyone can set up a web page and say whatever they want, so web pages are generally not a very good resource (unless it's the physics department website at MIT, for instance, because it has credibility in this field). You should find reputable scientific texts. And, please, stick the topic at hand: physical science topics needs physical science resources. There is ample room in the Moral relativity article to discuss. In fact, I'm surprised you aren't contributing more to that article (especially compared to how much you try add to in this article), since you seem to be very interested in the topic and are more knowledgable about it than physical relativity. Teji 13:08, 9 April 2007 (EDT)
not "attributed" to Einstein.
isn't just "attributed" to Einstein. When someone says "attributed", they typically mean that someone is given credit for an idea somewhat apocryphally. Einstein obtained the relation in his Zur Elektrodynamik bewegter Körper, in which, from the Lorentz transformations, he obtained the relations:
and then, as :
And these bizarre polemics are undermining what little credibility this encyclopedia has. Sneering at Einstein and glorifying the contributions of Ponicare makes all of the sense of arguing over whether Leibniz or Newton invented calculus, particularly since there are very palpable differences between Einstein and Ponicare's treatments of the subjects. And, I see someone has removed the "there is no evidence for the general theory", but I'm sure it will be back by this afternoon. That's ever weirder -- how on earth can someone say that "there is no evidence" and then, in the same article, link to black holes?
I'm not going to go back to that article on Dirac Notation to fill up all of those links with articles until I'm sure one of the administrators isn't going to replace them with accusations of quantum mechanics being tantamount to the Kabbalah, or something equally stupid. (unsigned)
- It is a fact that Poincare published E=mc2 and most of the rest of special relativity before Einstein. Maybe you think that this is sneering or glorifying, but it is a fact, and there is no serious dispute about it. RSchlafly 20:17, 9 March 2007 (EST)
- This is true, but what Poincare described was a specific case of E=mc2. An experimental result showed that there was momentum when a body ejected EM radiation, but the mass was unaccounted for. Poincare described the mass of the EM as m=E/c2. Einstein derived this formula from more fundamental assumptions, the speed of light is absolute, etc. This is why his work is so famous. In fact, in all of science, nothing belongs to any one person, even though they may get credit, but are supposedly discovered. Also do not forget that Einstein also published General Relativity.
- Furthermore, while Poincare regarded it as superfluous, scientists of the day were still trying to work with the luminescent ether. Einstein's work proved this unnecessary.
- Again this is a lesson in science. We are always trying to compress and refine our science. Einstein, while he of course drew on other's work and surely knew of Poincare's m=E/c2 paper, his work was more refined and simpler, deriving many principles, Poincare's and new ones, from a few fundamental principles. Poincare published a paper about a month before Einstein with similar work, but in science, no one person makes a discover. Don't forget, Newton has his Hooke. But like Newton, it was Einstein's derivation and formalizations that worked better. (unsigned)
- Yes, Poincare described was a specific case of E=mc2, but so did Einstein. Einstein did not foresee particle annihilation or nuclear energy. Poincare's description of the ether as superfluous is nearly identical to Einstein's.
- How was Einstein's work on special relativity any more refined, simpler, or better working? I deny this. Poincare showed a better understanding of the theory than Einstein. RSchlafly 14:16, 23 March 2007 (EDT)
- Don't ask me, ask Lorentz. http://ia331314.us.archive.org/2/items/theeinsteintheor11335gut/11335-h/11335-h.htm
- OK, I looked at your link. The first thing I saw was a claim that the 1919 eclipse proved the General Relativity. We now know that eclipse proved no such thing. So much for the credibility of that link.
- The link does show that Lorentz and Einstein were patting each other on the back. That's fine, but it suggests a lack of objectivity towards the odd man out, Poincare. This dispute cannot be resolved by self-interested party, obviously.--Aschlafly 01:29, 5 April 2007 (EDT)
- Can't get much more credible than a publication by Lorentz on Gutenberg, bud. It may be dated, but it is closer to the date of Einstein's work. As far as I see you, you have the burden to prove your claim as much as everyone else has to support the opposite claim. Where is your evidence of credible sources? Teji 18:45, 5 April 2007 (EDT)
I was just looking at an old version of this page, and the absurdity of the "scientific" claims made, combined with the low quality of the writing and blatant inaccuracies, make the article, quite frankly, almost intellectually offensive. I realize that this has since been rectified, but if this is the quality that is to be expected of Conservapedia articles, then I do not blame those who dismiss it as a failed attempt. Geekman314(contact me) 15:12, 9 March 2007 (EST)
- be specific in your statements if you expect a response.--Aschlafly 19:04, 9 March 2007 (EST)
I find the content reverted to in the above edit to be quite disturbing.
- The General Theory of Relativity does not reject Isaac Newton's "God-given" theory of gravitation, it simply provides an explanation for why it functions.
- that was obviously vandalism.--Aschlafly 19:04, 9 March 2007 (EST)
- It is most certainly not a problem that the General Theory of Relativity is based upon mathematics as opposed to empirical evidence, as seems to be insinuated by this version.
- mathematics is mathematics, and unless there is empirical evidence it is not science.
- Albert Einstein's work did contribute to the development of the nuclear bomb. E=mc2 describes the duality between matter and energy, the principle upon which the nuclear bomb, and all other nuclear devices, functions.
- nope. E=mc2 is a statement of relativistic effect, not atomic power.
- "Nothing useful has even been built based on the theory of relativity." Sure, sure… nuclear power plants aren't useful at all, are they? GPSs aren't useful at all, are they?
- GPSs are useful, but they weren't built using General Relativity.
- Without realativity describing gravitation redshift, the timing for the GPS satelite would be off by about 45 microseconds/day. Further reading on the matter at http://www.astronomy.ohio-state.edu/~pogge/Ast162/Unit5/gps.html --Mtur 19:08, 9 March 2007 (EST)
- I think Lorenzian relativity accounts for the GPS time dilation more precisely. But that isn't really my point. The GPS clocks are updated based on communications between the satellites and ground stations, not based on any theory. If you claim that GPS is built based on relativity, then you should be able to prove your case with an historical reference. No such proof exists.--Aschlafly 20:39, 9 March 2007 (EST)
- That observation does not support the false claim that GPS is based on General Relativity. Other theories predict a dilation of time, and satellites are obviously synchronized based on communication, not theory.--Aschlafly 19:11, 9 March 2007 (EST)
- "Most conservatives are skeptical since science is supposed to be about finding proof before a theory becomes a fact, not after." And where are the statistics that show this?
- Don't know who wrote that statement, but it's a correct statement of what science means.
- Gravitons are not predicted by general relativity; much to the contrary, the two have not been reconciled.
- It is currently believed that space does indeed have curvature, what is described as "negative" curvature, giving it a saddle-like shape overall, but curvature nonetheless.
The denial of demonstrated principles because they do not coincide with your worldview is not scientific, it's purely reactionary nonsense. I'm not impressed by Examples of Bias in Wikipedia citing Wikipedians taking issue with this as a "bias". Geekman314(contact me) 16:11, 9 March 2007 (EST)
- OK, fine, no one is trying to impress you. The Wikipedia entry was biased and demonstrably false, as explained in Bias in Wikipedia.--Aschlafly 19:04, 9 March 2007 (EST)
- Oh, and I mean no offense to Aschlafly. Although I do not necessarily agree with all his views, I do not wish to disparage him, and I recognize his value as a contributor. I've reconciled with him on this issue, and want to make clear that I do not mean this comment as an attack. Geekman314(contact me) 22:44, 9 March 2007 (EST)
- I just realized that I had somehow managed to fail to see that Aschlafly's edit was a simple revert to a previous version. I don't necessarily agree with the decision, and I don't retract the points with which I take issue, but Aschlafly is not responsible for the content, and I'm sorry for insinuating that he was. I've changed some of my comment to reflect the fact that the edit was simply a revert. Geekman314(contact me) 23:29, 9 March 2007 (EST)
Merge with draft
There is a draft for this article here. Surely it's about time these two were merged together or at the very least decide which one is to be continued. I will continue to work on Theory of Relativity/draft as I feel it is a much clearer article. What does everyone else think? MatteeNeutra 07:33, 8 April 2007 (EDT)
- Your draft article has some great stuff in it. Would you like to merge it into the main article now? However, please do not delete anything from the main article as part of the merge. Thanks and a good Easter to you.
- By the way, it appears that relativity is taught in college without using the concept of relativistic mass. But let's go with your relativistic mass as you wrote it.--Aschlafly 20:06, 8 April 2007 (EDT)
- Yeah, I'll take a shot at a merge now. Relativistic mass is quite important to the theory, as from it we can determine that matter cannot travel faster than the speed of light. MatteeNeutra 18:17, 9 April 2007 (EDT)
This isn't Wikipedia
Teji, don't delete facts here that liberals don't like. This isn't Wikipedia.--Aschlafly 13:02, 9 April 2007 (EDT)
- Please read my explanation above. I don't think anyone likes unsourced information that is in the wrong topic. Please contribute to Moral relativity. I had to create that page while someone was adding information about it to the this topic. Teji 13:10, 9 April 2007 (EDT)
- Furthermore, that link is about moral relativity, not special relativity. It belongs in Moral relativity. It is shocking that someone so interested in that topic didn't even think to make the article. In fact, I started that article! Teji 13:12, 9 April 2007 (EDT)
- Here is what I said above in case you didn't catch it: No reputable explanations of relativity mention moral relativity. Find a reputable one. Don't look for moral relativity explanations that include physics relativity, because that information belongs in Moral relativity, not here. You are researching the wrong topic. Repeat: look for information about the physical theory of relativity and see if you can find one that mentions moral relativity (not pages that talk about moral relativity and mention physical relativity). Furthermore, anyone can set up a web page and say whatever they want, so web pages are generally not a very good resource (unless it's the physics department website at MIT, for instance, because it has credibility in this field). You should find reputable scientific texts. And, please, stick the topic at hand: physical science topics needs physical science resources. There is ample room in the Moral relativity article to discuss. In fact, I'm surprised you aren't contributing more to that article (especially compared to how much you try add to in this article), since you seem to be very interested in the topic and are more knowledgable about it than physical relativity. Teji 13:08, 9 April 2007 (EDT)
- I find it interesting that when you cannot support your information you resort to name-calling and statements about wikipedia. Does this site want credible and accurate information or information with an agenda? Because if it is the latter, please make a statement to that effect in your policy pages, or would that make this website too credible and accurate? Teji 13:16, 9 April 2007 (EDT)
Teji, the statement does not claim that the theory of relativity supports moral relativity, but merely that supporters of moral relativity seized upon the theory of relativity to justify their views. "Advocates of moral relativity seized on the theory of relativity to legitimize their views. Historians such as Paul Johnson wrote about how the theory of relativity caused a sea change, justified or not, in 20th century thought." That statement is correct and should not be deleted. Read it, and reread it, and only comment further here if you can provide something that specifically refutes that statement. Thanks.--Aschlafly 13:18, 9 April 2007 (EDT)
- It is in the wrong place. The statement is clearly about Moral relativity. This statement is also correct: Jesus is God, does it belong in this article? No. Here is another correct statement: morality is "what is the good" and ethics is "how do I practice it" from the moral relativity site. Does it belong in this artcle? Certainly not. Teji 13:21, 9 April 2007 (EDT)
- Correctness is not enough. There also must be accuracy. Information about Moral relativity belongs in that article. Teji 13:22, 9 April 2007 (EDT)
- Maybe you should change the title to just "Relativity". RSchlafly 14:03, 9 April 2007 (EDT)
- Okay, how do I do that? We could also make a disambiguation page, but I don't know how to do that either. Teji 14:28, 9 April 2007 (EDT)
- RSchlafly, you've missed the point. This article is about the Theory of Relativity as a scientific theory. As such, the article should not talk about Moral relativity which, apart from sharing using the same word, is absolutely nothing at all to do with the Theory of Relativity. I also, do not think that the sentence about Moral relativity should be put on this article. At the very most a link at the bottom of this article to Moral relativity, but you may as well link it to a page on forestry for all the relevance it has. MatteeNeutra 05:04, 10 April 2007 (EDT)
- Exactly, if you want to speak about moral relativists using special or general relativity as validation for their philosophy then it should be placed in an articlea bout moral relativism. It should not be here. Perhaps - perhaps - it could go in a section on the influence of the theory of relativity on 20th century culture.Airdish 05:35, 10 April 2007 (EDT)
Why was quote about Dicke removed?
I added this quote about the Francis Dicke's theory. Aschalfy, why did you remove it without any comments? It is from the same time magazine article that is already cited in this article. It clarifies why Dicke's theory is less professionally accepted! Please read the article yourself. It shows that Einstein's theory was closer than Dicke's.
But the J.P.L. experimenters reduced the margin of error to 4% or less by locating the distant spacecraft within 100 ft. of their actual position. Thus, when they calculated that the signal to Mariner was slowed down by 204 millionths of a second on its round trip, they dealt the Brans-Dicke theory a sharp if not decisive blow. Their measurement was only 4 millionths of a second off the Einsteinian prediction, but 18 millionths of a second off the Brans-Dicke figure. http://www.time.com/time/magazine/article/0,9171,943324,00.html
This is the same article that that is cited for the statement Physicist Robert Dicke of Princeton University was a prominent critic. The same article that shows why Robert Dicke's theory is not accepted among scientists. Dicke suffered not just because he criticized Einstein's theory, but also because his theory was not as accurate. Teji 14:41, 9 April 2007 (EDT)
- Time magazine is not an authority on whether Dicke's theory is better than Einstein's. Our rules are very clear not to cite journalists as authorities beyond their expertise. A scientific citation that I added shows that Dicke's theory is held in high regard to this day.--Aschlafly 14:50, 9 April 2007 (EDT)
- The JPL isn't?
- You've got to do better than that if you want a response.--Aschlafly 16:13, 9 April 2007 (EDT)
- And a link from the JPL http://www.jpl.nasa.gov/releases/70s/release_1970_0566.html --Mtur 16:15, 9 April 2007 (EDT)
- That's an old self-serving press release about only one study. My footnote about relativity, citing a renaissance in Dicke's theory, is more recent and more comprehensive, and is based on a astrophysics encyclopedia. So your cite is not appropriate.
- And another article http://www.astrosociety.org/pubs/mercury/9404/dicke.html about Dicke's critique of relativity and where it failed to produce a better answer. Tests included sodium lines in the sun, distance to the moon, and precession of Mercury. I do not believe that it is fair to say that the theory is held in high regard today. --Mtur 16:28, 9 April 2007 (EDT)
- I'll take a look at this. I must say, however, that any article that starts out by calling its opponent a "crank" lacks credibility. But this cite is worth including to reflect the political bias against Dicke, resulting in his being denied the Nobel Prize.--Aschlafly 17:31, 9 April 2007 (EDT)
- It actually specifically says that Dicke was not a "crank." Murray 17:37, 9 April 2007 (EDT)
- Ah, yes. The author charitably concedes that Dicke himself was not a crank, just anyone who supported Dicke's view was.
- This article, which I'm reading now, is incredibly biased and one-sided. It declares the "General Theory" to be possibly the "greatest single achievement in physics ... of all time." And the author states his extremely biased view before telling us about testing results. Too bad this conflicts with the encyclopedia I cite in the content page. The value of this article is to show how intolerant supporters of the "General Theory" are of any criticism, including that by Dicke.--Aschlafly 17:58, 9 April 2007 (EDT)
- If Dicke's results were as good or better than General Relativity, then there would be no issue at all. It also addresses reference #8 about not getting a Nobel Prize - that is because the prize is for discovery, not interpretations. He wasn't a theoretician and thus didn't have other theories and discoveries. The individual Dicke is held with high regard in the community - his theory is not (though it is respected in developing the framework for relativistic events). I am curious to see a citation that shows his theory as being respected for the results it gives. --Mtur 19:16, 9 April 2007 (EDT)
- Also the article you misuse by taking the whole renaissance statement out of says this in the same paragraph before your quote!
- Initially a popular alternative to General Relativity, the Brans-Dicke theory lost favor as it became clear that omega must be very large-an artificial requirement in some views. Nevertheless, the theory has remained a paradigm for the introduction of scalar fields into gravitational theory, and as such has enjoyed a renaissance in connection with theories of higher dimensional space-time.
- Teji 16:57, 11 April 2007 (EDT)
- Also the article you misuse by taking the whole renaissance statement out of says this in the same paragraph before your quote!
Muon experiment from another point of view
From the point of view of the muon in the experiment mentioned, time is not slowed down, but rather distance is compressed. So instead of dilating time 5x across 10km of travel at relativistic speed, the muon saw that space had compressed from 10km to 2km (also 5x) and it was still traveling that distance. Thus, the same result - just different perspectives. --Mtur 20:50, 27 April 2007 (EDT)
Ref: Despite being one of the most accomplished physicists in the 20th century, Dicke was never given a Nobel Prize.
I would like to remove this reference. Nobel Prizes are given for discoveries and advancements. Dicke was an experimentalist - not a theorist. He didn't make discoveries or advancements but rather proved or disproved what the theorists came up with. As such, the work he did was not something that was noted by those nominating for the Nobel Prize. Likewise, you won't see a book critic get a Nobel Prize for literature, no matter how good of a critic he or she may be. --Mtur 21:02, 27 April 2007 (EDT)
- Given that there has been no comment on this in opposition, I am removing the reference until someone can dispute the question of if any of Dicke's work was the type for which a Nobel Prize would have been given. --Mtur 15:46, 30 April 2007 (EDT)
- I'm reverting your change. Experimentalists win the Nobel Prize all the time. A prize was given to someone else for work Dicke was doing. In fact, experimentalists probably win the prize more than theorists. The deletion of that sentence is for liberal purposes, and we don't allow that here.--Aschlafly 15:50, 30 April 2007 (EDT)
Government support of relativity research problems
The section on government support of relativity research needs a big re-write, but it needs to be clear what is intended first. There are several specific complaints which seem to have been jumbled together:
- LIGO was a failure, and the money could have been spent elsewhere.
- Too much money is spent on string theory and similar theories.
- The government does not support research into (unspecified) alternate theories.
- This is just liberal crybabying. Not all experiments work, and you can't know ahead of time which ones will. Most such complaints about too much money being spent on some experimental program are based on the idea of government as sugar-daddy, and whining when sugar-daddy likes someone else best.
- This complaint is more legitimate, as there are serious claims that string theory is not a scientific theory. However, this complaint doesn't belong in this article, because string theory is not relativity; it's an attempt to reconcile general relativity with quantum mechanics. String theory would replace general relativity, if a coherent theory were formulated, and then tested.
- This complaint seems ridiculous, as the government has funded plenty of tests to verify general relativity; any experimenter who wants to test an alternate theory can devise a test which would produce one result if GR is correct, and another if the alternate theory is true, and ask for funding for a test to verify GR.
On the other hand, perhaps the section could be deleted altogether. Ultramontanist 02:02, 23 June 2007 (EDT)
This paragraph is nonsense:
- There is a logical difficulty, however, to an increase in relativistic mass. Such increase would only exist in the direction of motion, and the rest mass would remain intact with respect to a force applied in a direction orthogonal to velocity. But mass is not a vector, and the notion of the mass of an object having different values depending on the direction of an applied force is unacceptable.
The relativistic mass applies no matter what the direction of the force is. Some don't like the term "relatvistic mass", but for other reasons.
This is also nonsense:
- In layman's terms, these two assumptions can be restated as:
- 1. It is impossible ever to transmit information faster than the speed of light.
- 2. The laws of physics are identical, without any variation, in every location throughout the universe.
- 3. The laws of physics are identical, without any variation, no matter how fast something is traveling (in the absence of acceleration).
This is not a restatement. Relativity says masses cannot for faster than light. Probably not information either, but that is another principle. Parts 2 and 3 are confusing and misleading, at best. Relativity teaches that there are no inertial frames in the universe. The laws of physics apply throughout the universe. They apply whether there is acceleration or not. But special relativity has more to do with inertial frames.
I suggest getting rid of these "layman's terms". They aren't. They don't clarify anything for anybody. RSchlafly 02:29, 8 July 2007 (EDT)
Bayes, your claim that GPS is based on the Theory of General Relativity is not correct. GPS synchronization can be done directly, and has never relied on the theory. Your edits should be reverted.--Aschlafly 19:37, 23 July 2007 (EDT)
- My apologies. I didn't mean to edit recklessly; I thought I was correcting a typo. In fact, the source cited by that sentence before I made my edit (and many other sources as well) indicate that relativistic corrections are, in fact, taken into account by GPS receivers. Clocks on the satellites run at different rates than those on the ground due to the fact that they are at a higher altitude, where gravity is weaker; hence the need for a correction for gravitational time dilation, as predicted by general relativity. Yes, that means that clocks in Denver tick slightly faster than clocks in New York. I would be happy to look at any sources you can provide that show how GPS keeps accurate time without those corrections.--Bayes 20:30, 23 July 2007 (EDT)
- Your citation is to a silly, unsupported and off-hand remark by a professor of astronomy. GPS was built by engineers in the 1970s, who would not have even attempted to calculated the time dilation using relativity. There would be no reason to rely on relativity, since the clocks can be and were synchronized more directly, more simply and more accurately by communicating with them.--Aschlafly 22:09, 23 July 2007 (EDT)
- 1. Let me reiterate that the citation was there before I made my edit. The previous version denied that relativistic corrections are necessary, and then cited a source to the contrary. Your recent edit makes a similar claim, but cites a source that doesn't delve deeply into technical aspects of how GPS actually works, and is therefore irrelevant to the claim.
- 2. You can dismiss the citation in question if you like, but it seems that the overwhelming majority of experts disagree; consider 1 2 3, which I doubt would be considered "silly, unsupported and off-hand remark[s]."
- 3. GPS designers in the 1970s certainly knew about relativistic effects. Here's an exerpt from 3:
- [B]efore the first GPS satellite was launched in 1977, although it was recognized that orbiting clocks would require such a relativistic offset, there was uncertainty as to its magnitude, and even its sign. So correcting frequency synthesizers were built into the clocks, spanning a large enough range around the nominal 10.23 MHz clock frequency to encompass all possibilities. After the satellite's cesium atomic clock was turned on, it was operated for three weeks to measure its rate. The frequency shift measured during this initial period was found to be 4.425 parts per ten billion, agreeing with the relativistic calculation to better than 1%.
- 4. Yes, communication with the satellites is possible. That doesn't change the fact that satellite clocks run at different rates than ground-based clocks, which would result in huge errors if the satellite clock frequencies weren't compensated for time dilation effects.--Bayes 15:17, 24 July 2007 (EDT)
- 1. Let me reiterate that the citation was there before I made my edit. The previous version denied that relativistic corrections are necessary, and then cited a source to the contrary. Your recent edit makes a similar claim, but cites a source that doesn't delve deeply into technical aspects of how GPS actually works, and is therefore irrelevant to the claim.
Criticism of LIGO
The criticism of LIGO under the heading "Government funding..." should be viewed in context. The observatories are not yet operating at their maximum level of precision. The usual procedure when building large projects like this is to make sure they work at more imprecise levels, and then "tune" them closer and closer to their limits. It isn't surprising that LIGO has not yet detected gravitational waves, and the consensus is that such waves will be detected in the future. The cource cited for that criticism even mentions that physicists are "confident" that LIGO will be successful. After all, the NSF doesn't shell out hundreds of millions of dollars in grant money on a coin flip; they were/are convinced that getting results is a slam dunk.--Bayes 20:48, 23 July 2007 (EDT)
- Hope springs eternal. I'm afraid you sound like an oil-well driller (wildcatter) who, after encountering one dry well after another in a region, says "just spend a little more money and drill again!"
- LIGO has been a disappointment so far, and there is no sign of success right around the corner. At some point accountability is in order, even if more money is to be spent searching gravity waves. Realize that this search has been ongoing for 100 years, without any detection. How many more years are necessary?--Aschlafly 22:12, 23 July 2007 (EDT)
- While I fully agree that accountability for all major budget items is in order at some point, I don't think the oil-driller analogy is valid in this context. LIGO is still far from its designed sensitivity, as mentioned here. Plans are already underway to do go beyond merely detecting gravitational waves to doing astrophysics with them. Furthermore, detection of gravitational waves requires extreme sensitivity that can only be achieved with modern technology. Serious efforts to detect them didn't begin until the 1960s, when Joseph Weber built his bar detectors, and even then the scientific consensus was that his detectors weren't sensitive enough. Some scientific advances just have to wait for technology to allow their discovery. Tell you what, if LIGO is considered a failure in 10 years, I owe you a Coke.--Bayes 15:40, 24 July 2007 (EDT)
- It's been nearly 2 years since your message above, and LIGO has been operational for nearly 7 years. Do you really insist on waiting a full 10 years (after spending a billion dollars) before allowing some accountability? LIGO soaked up a ton of research money that could have been spent on promising technology and potential cures.--Andy Schlafly 17:54, 23 March 2009 (EDT)
There are some other aspects of this article that I would like to consider adding to or changing.
- A fair amount of text is dedicated to Eddington's findings and not many other astronomical observations. Eddington published his results in 1919; obviously, since then, there have been many others who have improved on his observations.
- The "Ostensible Paradoxes" section should be heavily altered or removed; there aren't any paradoxes listed there. First, the SR postulates don't offer any opinion on whether physical constants have had the same value throughout the history of the universe; they state that all inertial observers get the same answer when they measure the speed of light. Second, there are several ways to measure wave velocity; some of the most common are group velocity and phase velocity. Both types of velocities can exceed the speed of light (c) without violating special relativity. However, the energy velocity and information velocity do not exceed c, also in accordance with SR. There is nothing mysterious or sinister going on here; these concepts are addressed or at least mentioned in many undergraduate courses. Third, the universal constant c is the speed of light in vacuum; the speed of light in materials is less than than c since the electric permittivity and magnetic permeability of materials are different than those of vacuum. That means that matter can travel faster than light in a material without violating SR; try Googling Cerenkov radiation.--Bayes 18:28, 24 July 2007 (EDT)
- I'm concerned about the use of some citations, which seem to be misrepresented in order to discredit relativity. For instance:
- The Economist article cited does not attack relativity; it's a discussion of how GR is being tested to its limits, like any other theory. If any improved theory of gravity is found, GR is likely to be a useful subset of it, in the same way that Newtonian gravity is a useful subset of GR. And anyway, I thought non-scientific sources weren't supposed to used in these situations.
- The new cite for the statement There is a correlation between enthusiasm for the theory of relativity and political views is an opinion piece about how moral relativists hijacked scientific relativity for their own purposes. The cite doesn't make that claim, and it doesn't show any data to support it. Frankly, I'd be very surprised if any such correlation existed. Even IF that kind of correlation existed, it doesn't belong in a scientific article.
- The overall tone of the article seems to try to convince the reader to be skeptical of relativity. It appears to me that such skepticism is ideologically motivated, e.g., Although the liberally biased Wikipedia contains lengthy criticisms of the subjects of many entries..., The Democratic Congress insisted on the $250 million LIGO project..., There is a correlation between enthusiasm for the theory of relativity and political views. I don't fully understand the motivation, but it bears repeating that good science (of which relativity is a part) is independent of ideology.--Bayes 17:54, 26 July 2007 (EDT)
- You're not the first to deny a liberal bias in science. But surely you would agree that the following areas of science, and perhaps nearly of all science, are susceptible to political bias:
- --Aschlafly 18:11, 26 July 2007 (EDT)
- I absolutely agree that deciding what science to fund, implementation of policies pertaining to scientific findings, or practical use of scientific results (like nuclear weapons), and perhaps some other issues not mentioned are or can be politicized. But I stand by my basic point: if you get a liberal to measure acceleration due to gravity on Earth's surface, and then get a conservative to do the same thing, they'll both get 9.8 m/s^2. Similarly, relativity has been around long enough, has useful applications, and is so successful in predicting experimental outcomes that it should not be subject to the same treatment as the more controversial topics you mention.--Bayes 18:24, 26 July 2007 (EDT)
- You apparently don't concede the liberal bias in the majority of my examples above, such as global warming and SDI. When I worked as engineer at a research facility in the 1980s, we had an IBM scientist with impeccable credentials give a presentation claim that SDI was impossible, dangerous, and bad politics. It's silly to pretend that his claim of impossibility of SDI was unrelated to politics. Likewise, it's silly to pretend there is no political bias in global warming theories. But if we can't agree on that, then there is little point in discussing this further. Godspeed.--Aschlafly 18:33, 26 July 2007 (EDT)
- Did you read the first sentence of my post above? Global warming is an example of tough policy decisions that could be implemented based on scientific findings. Surely both conservatives and liberals agree with the basic finding that the earth is warming. Similarly, the political debate over SDI was about the USE of science and technology, not the FINDINGS of science and technology. Sure, scientists can have opinions about what to do with their findings, but presumably the experimental results are valid across political lines. In any case, this is an aside; my specific concerns with the article, as addressed on this page, still stand. I assume by your willingness to exit the conversation that you don't have any problems with me addressing them?--Bayes 18:48, 26 July 2007 (EDT)
- Your first sentence omitted any reference to global warming. Global warming is a liberal scientific theory about if and why the earth is warming. Yes, there are political biases in many scientific theories. If you can't accept that, then I urge you to become more open-minded first before trying to pretend that something is immune from politics.
- I have no objections to factual edits of this article that add information. I do object to pushing a liberal point of view by deleting factual information. Thanks and Godspeed.--Aschlafly 19:02, 26 July 2007 (EDT)
- Sounds good. However, the fact that GPS satellite clocks have built-in corrections for relativistic effects is something I inserted previously, and it was reverted. I hope you understand that I brought up these issues in an effort to accurately represent the science, and not because of some agenda. As I've said, I don't think special and general relativity are associated with political controversy.--Bayes 19:12, 26 July 2007 (EDT)
- Bayes, you continue to insist on a falsehood, and I attribute that to liberal distortions in what you've read elsewhere. Please recognize that politics does distort science. GPS satellite clocks were not built based on predictions made by the theory of relativity.--Aschlafly 19:38, 26 July 2007 (EDT)
- See my post above, where I have cited several sources that assert the contrary. On the other hand, you have yet to provide any evidence of how GPS can work without taking such corrections into account. Your source for that claim does not address timing issues with regard to GPS. I have to say that I'm increasingly baffled by your continued denial of this verifiable fact. How would a vast liberal conspiracy gain from hiding how clocks work?--Bayes 20:00, 26 July 2007 (EDT)
- Bayes, you're talking to a former engineer. GPS was built by engineers, not by theoretical physicists. GPS never used the theory of relativity. If you continue to dispute that (likely due to liberal bias), then give me your very best cite for your claim that GPS used the theory of relativity and I'll look at it. Otherwise, drop it and move on to a different issue. Thanks.--Aschlafly 21:41, 26 July 2007 (EDT)
GPS and relativity links:
- http://www.physicsmyths.org.uk/gps.htm (actual equations)
- http://www.acs.ucalgary.ca/~kpgokeef/pubs/ENGO625relativity.pdf (slides from an engineering lecture - see pages 23-30 for listing of relativistic effects GPS accounts for - note conclusions on page 31.)
--Rutm 21:53, 26 July 2007 (EDT)
- No, you're not listening. Give me your best cite for the claim that GPS *uses* the theory of relativity. Pick out your best, that's all I'm going to waste time on, since the answer is obvious to any engineer: GPS never used the theory of relativity.--Aschlafly 21:58, 26 July 2007 (EDT)
- In that case, I should probably reference http://tycho.usno.navy.mil/ptti/1996/Vol%2028_16.pdf "GPS And Relativity: An Engineering Overview".
- The first page introduction finishes with "In this paper, we compare the predictions of relativity to those of intuitive, classical, Newtonian physics; we show how large or small the differences are, and how and what applications those difference are large enough to make it necessary to correct the formulas of classical physics."
- Lorentz Contraction is covered on page 2, Gravitational redshift on page 3, and the acceleration of the satellite on page 4.
- "Since GPS receivers work in the time and not in the frequency domain, they handle the velocity, gravity, and acceleration shifts differently than described above. First, each GPS space vehicle (SV) clock is offset from its nominal rate by about -4.45x10-10 (= -38 microseconds per day) to allow for the relativistic offsets between the differences between the SV and the ground. Of this, -38 microseconds per day, about -45 are due to the gravitational potential difference between the SV at its mean distance and the earth's surface, and +7 to the mean SV speed, which is about 3.87 km/sec."
- Does that help answer the question? --Rutm 22:22, 26 July 2007 (EDT)
- The very first sentences of this paper prove my point (emphasis added):
- The Operational Control System (OCS) of the Global Positioning System (GPS) does not include the rigorous transformations between coordinate systems that Einstein's general theory of relativity would seem to require - transformations to and from the individual space vehicles (SVs), the Monitor Stations (MSs), and the users on the surface of the rotating earth, and the geocentric Earth Centered Inertial System (ECI) in which the SV orbits are calculated. There is a very good reason for the omission: the effects of relativity, where they are different from the effects predicted by classical mechanics and electromagnetic theory, are too small to matter - less than one centimeter, for users on or near the earth.
- The remainder of the paper is theoretical speculation about how a future GPS system might use relativity. There is disagreement about how relativity might be used, as reflected by comments in the paper.--Aschlafly 23:05, 26 July 2007 (EDT)
- The remainder of the paper is about improvements to the GPS system. The paper was published in '97. In 2001, the system was updated. With Block II GPS satelites, OCS was rewritten so that it doesn't require constant updates from ground stations to reset the clocks http://igscb.jpl.nasa.gov/mail/igsreport/1994/msg00146.html (example of clock reset for relativity prior to 2001). Instead, now, accounting for relativity constantly the GPS satellites are able to offer much more accurate positioning (this was required, as mentioned by the paper I previously linked, the 6 meter accuracy - it is now required by the 2001 performance standard http://www.navcen.uscg.gov/gps/geninfo/2001SPSPerformanceStandardFINAL.pdf (page 20 of the document, section 3.4) . If you are willing to reset the clock periodically and accept errors between clock resets - then you can discount relativity. If you want high accuracy all the time, you must take relativity into account between synchronizations. --Rutm 00:58, 27 July 2007 (EDT)
- The remainder of the paper is about proposed improvements to the GPS system. There is nothing indicating that those proposals were ever implemented. So that paper strikes out as support for the claim that GPS relies on relativity.
- Now you're pointing me to a new paper. I'll look at it in the morning but, as I said, pick your best one. If this paper strikes out also then I'm unlikely to keep looking at more and more papers to explain why each one fails to support the claim. Please provide your very best cite, as I requested before. Thanks and Godspeed.--Aschlafly 01:07, 27 July 2007 (EDT)
- "[B]efore the first GPS satellite was launched in 1977, although it was recognized that orbiting clocks would require such a relativistic offset, there was uncertainty as to its magnitude, and even its sign. So correcting frequency synthesizers were built into the clocks, spanning a large enough range around the nominal 10.23 MHz clock frequency to encompass all possibilities. After the satellite's cesium atomic clock was turned on, it was operated for three weeks to measure its rate. The frequency shift measured during this initial period was found to be 4.425 parts per ten billion, agreeing with the relativistic calculation to better than 1%."
- You've now been presented with many sources from Rutm and I supporting GR implementation in GPS, and you have yet to produce one source that says that GPS works on only classical principles. Furthermore, I question your motivation in demanding one "best" source, since I anticipate that you will attempt to attack the "best source," perhaps by invoking "liberal bias" (as if it existed in this case--either the clocks run at different frequencies or they don't), ignoring the vast consensus, and proclaim "victory."--Bayes 10:56, 27 July 2007 (EDT)
- OK, I think I now (finally!) understand what's going on. I think we have a misunderstanding here; we're talking about two different kinds of corrections. The paper supplied by Rutm (and quoted in the current article) is discussing relativistic corrections to the frequency of signals measured by the receivers. That paper is from the early 1990s, and at that time no relativistic corrections were performed for those signals (though corrections might be taken into account now). Throughout this discussion, I have been referring to the fact that clocks on GPS space vehicles have ALWAYS had built-in frequency offsets to account for the relativistic effects on moving clocks and clocks in gravitational potentials. It's a question of corrections made to the communications between GPS components and the on-board clocks of the satellites; the former are not as important, while the latter are very important. Any problems with inserting this nuance into the article?--Bayes 19:14, 27 July 2007 (EDT)
Andy, that GPS quote is extremely misleading. It implies that the relativistic effects are too small to be significant. But the rest of the paragraph explains that relativistic corrections are necessary to meet the accuracy requirements of most users. The article is incorrect when it states, "Predictions of relativity have not historically been used to make the Global Positioning System (GPS) function properly." Relativity has in fact been used, and programmed into satellites and receivers. RSchlafly 11:48, 28 July 2007 (EDT)
- That's simply not true. GPS adjustments have been based on observation, not theoretical prediction. Effects predicted by relativity are offsetting to each other and the experts could not even agree in which direction the small net effect would be.
- This is a matter of historical fact and it's astonishing that the demands to rewrite history about this are so persistent. The quote confirms the obvious: GPS adjustments are based on observation, not theoretical prediction.
- For those who claim to have such a thorough understanding of GPS here, how about answering the question below: does Newtonian mechanics predict any divergence in the clocks from the satellite compared to ground? Godspeed.--Aschlafly 12:31, 28 July 2007 (EDT)
- No, the fact is that the GPS satellites have operated both with and without the relativistic corrections. The cited articles confirm that. You are completely wrong to say that relativistic corrections have not been used.
- The relativistic corrections partially offset each other, but not entirely, and they are big enough to affect accuracy in a typical consumer GPS unit. It is also false to say that there is disagreement among physicists on the point.
- If you were right, then find an article that supports what you say. That paragraph you quote ends with "large enough to make it necessary to correct the formulas of classical physics." Include that, and give the date on the article. RSchlafly 18:09, 28 July 2007 (EDT)
- The article first states the obvious: GPS is not designed using the theory of relativity. Then the article discusses an ongoing and unresolved dispute about exactly what the theory of relativity does predict for the numerous factors involved in the GPS system, and makes its own unverified claims. Relativity predicts time differences going in both directions, and there are issues about what the inertial frame should be. One article cited earlier, which I will try to find and reinsert, states that Lorentzian (not Special) Relativity generally matches observations best.
- GPS was built by engineers and there is no reason for them to rely on the theory of relativity. It is far simpler and more reliable simply to observe the time differences. Engineers don't study the theory of relativity, and if you think a physicist well-versed in the theory of relativity provided essential predictions for the GPS engineers, then who was he? Give us his name and he we can simply ask him. Was he nominated for a Nobel prize? Surely he would have at least published a paper about his work. Where is it????
- And where is the answer to the question as to whether Newtonian mechanics predicts time difference in the GPS system also? After all, if someone is going to claim that GPS confirms the superiority of relativity to Newtonian mechanics, then surely he must first make a statement about whether Newtonian mechanics predicts a time difference.--Aschlafly 21:56, 28 July 2007 (EDT)
- What you say is just not true. GPS was designed with an understanding of the magnitude of the relativistic effects. The effects are well-understood, and no one was nominated for a Nobel prize for predicting the effects. Yes, there were engineers who didn't study relativity and didn't think that relativistic effects would be significant. They have been proven wrong. There are no unresolved disputes. You have been given several references that tell the story. RSchlafly 02:41, 29 July 2007 (EDT)
- To sum:
- no physicists have been identified who supposedly incorporated relativity into the GPS design
- no papers exist describing how relativity *was* (not "might be") used in GPS
- references that have been provided describe disagreements among physicists about the relativistic predictions for GPS
- those claiming that GPS confirms relativity compared to Newtonian mechanics don't know whether Newtonian mechanics also predicts time differences, which renders the comparison pointless.
- I realize that historical revisionism is common in many areas, but I would hope that science would adhere to a higher standard. Sometimes, unfortunately, science seems be even more vulnerable to revisionism. Godspeed.--Aschlafly 11:04, 29 July 2007 (EDT)
- I will respond to this post below, under "Question about GPS"--Bayes 13:55, 30 July 2007 (EDT)
- As Bayes explains, the papers do say that relativity was used in GPS. Just what is the disagreement among physicists? I didn't see any in your references. RSchlafly 13:43, 31 July 2007 (EDT)
- No, none of the papers state that a physicist or group of physicists provided the complex relativistic predictions and that those predictions were incorporated into a particular GPS system. Engineers don't study relativity, and if physicists provided these predictions to a GPS system then there would be (a) names of physicists, (b) dates of incorporation, and (c) adjustments based on results. None of this happened.
- The claim that relativistic predictions were actually used in an actual GPS system wouldn't last 5 minutes on a witness stand at trial. It's pure fiction.--Aschlafly 16:20, 31 July 2007 (EDT)
Theory of Relativity (moved from User talk:Aschlafly)
I found it offensive that you labelled my edit a "liberal edit". I was not aware of the Corpuscular Theory of Light, and therefore I did not know what "Newton's theory" in that sentence was referring to. Since there was no link (as there is now) to a page which shows Einstein's formula being two times more than his previous one, which was stated to be same as Newton's, I changed the sentence to the best of my knowledge - that light was viewed as a wave through ether at Newton's time, and therefore his theory of gravity does not apply.
How my mistake is a "liberal edit" is beyond me. ATang 09:47, 26 July 2007 (EDT)
- Please accept my apologies. By way of explanation, not as justification, liberals love relativism and their spin on the theory of relativity, and exaggerate everything associated with it. Claiming that relativity predicts the bending of light while Newton did not is one of those exaggerations. A simple search on the internet before deleting something here is always advisable, and that simple search reveals how Newton's theory predicts the bending of light too (though not by as much). I think this Newtonian prediction is in high school physics problem books, so it is not obscure.
- Regardless, thanks for your efforts and I look forward to more additions by you here.--Aschlafly 10:43, 26 July 2007 (EDT)
- I'll search the internet before making changes next time. ATang 14:04, 26 July 2007 (EDT)
- Ashlafly, I am concerned about the overall tone of the relativity article. Some statements suggest the presence of an anti-relativity agenda. Am I correct in guessing that this stance is due to a perceived link between moral relativism, the Democratic party, and the scientific concept of relativity? If so, I'd like to point out that while scientific funding by the government is certainly a political issue, actual scientific research is a separate issue and is independent of political leanings. The outcome of a proper experiment does not depend on whether the scientists conducting it are conservative or liberal. You are indeed justified if you are objecting to overzealous extrapolations based on scientific findings (such as moral relativism being based on scientific relativity), but such extrapolations have absolutely nothing to do with the scientific findings themselves. IMHO, encyclopedic articles on the scientific concept of relativity should stick to the science and not go into philosophy or politics. Furthermore, criticism of concepts such as moral relativism should be concerned with the merits (or lack thereof) of the concepts themselves, not on sound science that has nothing to do with it. Attempts to discredit relativity because of perceived links to philosohical or political positions that one disagrees with are not scientific, and fly in the face of undeniable experimental verification, basic facts (like how GPS satellite clocks function) and essentially universal acceptance of at least the basic principles. If you would like to incorporate some of the material on the current relativity page into a separate article, such as Historical views of relativity, a personal essay, or something similar, then I would be all for it. I have not yet edited the relativity article heavily, but please see Talk:Theory of relativity for some of my specific conerns.--Bayes 17:56, 26 July 2007 (EDT)
- I have already responded to this above.--Aschlafly 11:32, 28 July 2007 (EDT)
Question about GPS
Does Newtonian mechanics predict that clocks on GPS satellites will diverge from clocks on earth? That is not an easy question to answer.--Aschlafly 11:32, 28 July 2007 (EDT)
- As far as I'm aware, no. It's relativity that predicts that there will be a divergence in time, for reasons already discussed. However, I want to throw in: both of you aruging about whether GPS satellites use relativity are correct in certain ways. Andy, you're correct that there is no actual use of relativity on the circuits on board the satellite. For those arguing that relativity is used, you're correct too; based on predictions from both general and special relativity, the clocks on the satellites are fine tuned with an offset to minimize the nano-second order deviations from clocks on the ground. Then, for practical purposes, newtonian based approximations are acceptable accuracy-wise. Stryker 14:08, 30 July 2007 (EDT)
- Mr. Schlafly, I apologize for not responding more quickly. Newtonian mechanics cannot account for the observed divergence in clock rates. Classically, inertial reference frames are related by Galilean transformations:
- x' = x + vt
- t' = t
- where x and x' are positions in the rest and moving frame, respectively
- t and t' are times in the rest and moving frame, respectively
- v is the velocity of the moving frame relative to the rest frame. Note that frame labels like "rest" and "moving" are arbitrary.
- According to those transformations, time in all inertial frames is the same (t' = t), and therefore no time dilation is predicted. However, the Lorentz transformations that relate inertial frames according to special relativity DO predict time dilation. So that would allow for corrections based on the relative speeds of the satellites. However, you could reconcile the time difference using classical mechanics IF you assert that the speed of light in the moving frame is different from the speed of light in the rest frame; that would essentially mean that the satellites are measuring a different light speed than the earth is. Such assertions would conflict with experimental evidence.
- Another, more significant time dilation effect is due to gravitational time dilation, predicted by general relativity, which is dependent on the curvature of spacetime. Newtonian gravity incorporates an "action at a distance" principle and does not incorporate spacetime curvature, and therefore predicts no gravitational time dilation.
- Also, your statement that no sources have been provided showing that corrections for relativistic effects were historically incorporated is incorrect, as I have twice quoted from a Physics Today article (see above) showing that devices allowing for such corrections to clock frequencies were used when the satellites were first launched. I'm still convinced we have a misunderstanding; the satellite clock frequencies have used and do need relativistic corrections, but once those corrections are implemented, Newtonian physics works fine for communication and position calculations (although some sources seem to indicate that may not be true for fast-moving objects, like jets and so forth). However, you have successfully convinced me that there is something of a political element in some areas of science :)--Bayes 14:40, 30 July 2007 (EDT)
- Bayes, it's wrong to assert that Newtonian mechanics does not predict time differences in GPS clocks. You can't build a clock that would be uneffected by acceleration under Newtonian mechanics.
- Let's be frank for a moment. It's absurd to insist that an experiment proves theory A is superior to theory B when there is no understanding of what theory B even says about the experiment. Theory A may indeed be better than theory B, but superiority is not demonstrated by that experiment.--Aschlafly 16:26, 31 July 2007 (EDT)
- You got a physics paper saying that relativity explains the GPS clock differences to within 1%. There is no Newtonian explanation for the differences. Just give the fact, and let the reader decide which theory is superior. RSchlafly 16:48, 31 July 2007 (EDT)
- The paper does not demonstrate that relativity predictions were incorporated into GPS. No paper demonstrates that.
- A few (not many) papers claim that observed GPS clock differences can be explained by relativity. That is a very different claim, and requires examining carefully the assumptions made in the calculations to justify a claim that the theory matches an observed result. It also requires comparing the calculations to Newtonian calculations, which the papers utterly fail to do.--Aschlafly 20:35, 31 July 2007 (EDT)
- Yes, of course those papers compare to Newtonian calculations. That is why they are called "GPS clock differences". They are the differences between the relativistic and Newtonian calculations. RSchlafly 21:27, 31 July 2007 (EDT)
- No they don't. Those few papers attempting to match relativity theory with GPS clock results all implicitly assume that the effects on the accelerated clocks from Newtonian mechanics are zero. That is likely wrong. And that explains why there are so few papers and so few physicists who claim personally to have confirmed GPS results with relativity theory.
- If GPS results really did confirm relativity theory, then this would be in textbooks and classroom assignments. It isn't. Only a few obscure physicists even make the claim asserted here, and because they implicitly make the assumption that Newtonian effects are zero, their claims are not credible.--Aschlafly 00:00, 1 August 2007 (EDT)
- Yes, of course the Newtonian effect on time are zero. What are you suggesting -- that some unknown Newtonian effect might predict a GPS clock difference that just happens to match the relativistic calculation? The fact remains that the GPS clock differences are predicted by relativity, and not by any other theory. RSchlafly 00:53, 1 August 2007 (EDT)
- There is a Newtonian effect on the clocks. Yet this was not even addressed by a few obscure physicists who claim to derive, using relativity while disagreeing with other experts, the exact same result as the observed GPS time differences. This omission hardly inspires confidence in their unverified work. Godspeed.--Aschlafly 11:58, 1 August 2007 (EDT)
- It wasn't addressed because it doesn't exist. Do you have any reliable source that says that a Newtonian effect can explain the observed GPS time differences? RSchlafly 12:13, 1 August 2007 (EDT)
- And if there is no such paper, then the relativity claim about GPS must be true??? No, the relativity claim about GPS needs to stand on far better logic than that.
- In fact, the few papers claiming relatitivy is confirmed by GPS, written by obscure physicists, overlooked the Newtonian effects on the clocks. If you think you can build a clock immune from Newtonian effects, then patent it immediately. Can't be done.--Aschlafly 12:49, 1 August 2007 (EDT)
Please identify the calculations that predict a difference in time. Bayes has already shown that time in all inertial reference frames is equal and identified how he derived this statement, so there's obviously something we're missing. ΨtrykeЯ eh?> 12:57, 1 August 2007 (EDT)
Andy, if there is no paper saying that a Newtonian effect can explain the observed GPS time differences, then it is correct to say that relativity provides the only known explanation for those differences. RSchlafly 13:40, 1 August 2007 (EDT)
- No, we shouldn't accept the equivalent of "relative proof." Just because a flawed proof or claim is better than other flawed proofs or claims does not mean it is acceptable. Would any mathematician embrace a flawed proof because it is better than other flawed attempts to prove the same theorem? I don't think so. Godspeed.--Aschlafly 15:32, 1 August 2007 (EDT)
- If you don't want to call it a "relative proof", that's fine with me. I am just correcting errors. RSchlafly 16:06, 1 August 2007 (EDT)
- Here are the facts:
- GPS satellite clocks have mechanisms to correct for frequency offsets caused by time dilation. I don't see how this can be disputed, unless you want to stubbornly deny that such devices exist, in which case you can claim that cars don't have engines.
- It hasn't been proven that the frequency offsets are due to "time dilation." Instead, you assume what you claim to prove. Your logic is circular.--Aschlafly 15:06, 2 August 2007 (EDT)
- Newtonian mechanics does not predict ANY time dilation because it regards time as absolute, even in accelerating frames. Again, I don't see how this can be reasonably disputed, outside of winning a Nobel Prize. There are no reputable sources that predict Newtonian time dilation because there is no Newtonian time dilation.
- No one said that Newtonian mechanics does predict time dilation. This is a strawman argument. What is true is that Newtonian mechanics effects the operation of clocks in accelerating frames.--Aschlafly 15:06, 2 August 2007 (EDT)
- Relativity does predict time dilation. All reputable physicists (not just a few obscure ones) can attest to that.
- OK, this is true, but purely theoretical.--Aschlafly 15:06, 2 August 2007 (EDT)
- The predictions of relativity are in good agreement with the frequency offsets on GPS satellite clocks. Several papers on the topic have been cited on this page.
- A few papers by obscure physicists have made this claim, but these papers raise questions like disagreements among relativists and a failure to address Newtonian effects on the clocks.--Aschlafly 15:06, 2 August 2007 (EDT)
- If you want to flat-out deny the above, then I guess I shouldn't waste my time trying to improve the article. I'll also point out that some significant creationist ideas depend on relativity to explain the starlight problem (God creating the Earth inside a massive gravitational field), so it's not an amoral atheist conspiracy.--Bayes 14:57, 2 August 2007 (EDT)
- Relativists love to exaggerate relativity. Earlier, someone here claimed (based on what he had been taught by relativists) that only relativity predicts the bending of light from gravity. Wrong again. Godspeed.--Aschlafly 15:06, 2 August 2007 (EDT)
You state, "No one said that Newtonian mechanics does predict time dilation...What is true is that Newtonian mechanics effects [sic] the operation of clocks in accelerating frames." Those sentences are contradictory. Newtonian mechanics does NOT predict any difference in the operation of clocks. Furthermore, what do the frequency offsets do if they don't compensate for time dilation?? Are they decorative?? Clock frequencies have to be adjusted because the clocks run at different rates. And whatever extrapolations "relativists" come up with have nothing to do with the science.--Bayes 15:36, 2 August 2007 (EDT)
Yes, that's correct. If you wanted to make an anti-relativity statement, I think that here is the most that you could say correctly is this:
- GPS does not prove relativity, in the sense that no experiment ever proves a theory. There is always the possibility that someone will come along later with a better explanation.
- Being able to calculate the relativistic corrections is not truly essential to making GPS work. Nowadays the satellite clocks are synchronized so frequently that predicting the clock drift is not necessary. If relativity were never discovered, then the satellite corrections could be made without anyone realizing that the system was just adding relativistic corrections. RSchlafly 16:02, 2 August 2007 (EDT)
- RSchlafly, although I disagree with your decision to remove some of the discussion here, I agree with your position. My only issue is that your second bullet still leaves open the question of why the clocks drift, or why they need to be synchronized often, and implies that we don't have a good explanation. However, we do have a pretty good explanation--relativity can predict such discrepancy to high precision. If GPS is mentioned in the article, I would prefer that we insert language similar to "Clocks on board GPS satellites require adjustments to their clock frequencies if they are to be synchronized with those on the surface of the Earth. Currently, relativity provides the best explanation for such adjustments (insert refs)" Does that sound any better? I'm open other suggestions.--Bayes 16:28, 2 August 2007 (EDT)
- I don't know what you mean about my "decision to remove some of the discussion here". What discussion did I remove? I did want to remove the 1996 quote because it is out-of-date and out-of-context. Anyway, I inserted your proposed 2 sentences. RSchlafly 19:01, 2 August 2007 (EDT)
- I was referring to this edit. Anyway, not that big of a deal now; I appreciate your attempt to fix the article, although those attempts have now been effectively neutered  . The GPS section has now grown so large that it may now detract from learning about relativity. I wonder if it is not better placed on the GPS article rather than this one.--Bayes 12:19, 3 August 2007 (EDT)
- Sorry, I apparently accidentally lost some comments. I just tried to restore them. RSchlafly 15:53, 3 August 2007 (EDT)
Edits like this one made in the last few days are again consistent with the overall skepticism for relativity present in the article. The physicist in question is indeed involved in research into alternatives to general relativity. He appears to support Yilmaz theory, which is not especially well-regarded by the scientific community  . Even if it turned out to be an improvement on GR, it would still predict time dilation and other relativity-esque things, so I don't see what would be gained by denying all of GR but then embracing Yilmaz theory. GR is constantly being tested because a.) it is in conflict with quantum mechanics and b.) it is the current gold standard for theories of gravitation, and the limits of current gold standards are where new physics lie. Physicists I know who are doing research on alternative theories of gravitation teach classes on relativity, and emphasize its success; they aren't "skeptics" who want to throw it in the trash. Improvements on GR are likely to include GR as an approximation, as Newtonian mechanics is an approximation to GR.
Relativity is the current best idea we have to explain a lot of things and works to within experimental uncertainty for all tests of it performed so far. This article should reflect that success instead of embarking on a misguided ideological quest to discredit it in favor of Newtonian mechanics, which is known to have limits. And what I've said applies to GR; SR is even more established. Aschlafly, your problem with relativity appears to be that it is called "relativity" which you believe allows it to somehow be associated with moral relativism. Would your objections still hold if it were named "Reference Frame Theory"? Please remove the skeptical claims, as their inclusion implies willful ignorance to anyone who visits this page.--Bayes 20:37, 3 August 2007 (EDT)
- Bayes, we're factual on this site. Exaggerations about the theory of relativity or anything else are not allowed here. For example, one editor here claimed that relativity predicts the bending of light but that Newtonian mechanics does not. That is false. Some of the claims here about GPS using relativity have also been false. This isn't allowed in a credible encyclopedia. Go to Wikipedia if you want to stretch or distort the truth to suit your personal views about what the facts should be. Here we state what the facts are.
- Similarly, we don't delete or censor factual scientific information here. You recently deleted factual information without justification, and your deletion has been reverted. Please abide by our rules. Thank you and Godspeed.--Aschlafly 01:21, 4 August 2007 (EDT)
- Andy, I don't get the point of your edits. Under Ostensible Paradoxes, you have a 2001 article that says "If confirmed, the finding could mean ...". That was 6 years ago. Was it confirmed, or not? The following results are somewhat interesting, but obscure. RSchlafly 13:14, 4 August 2007 (EDT)
Nasa on spacecraft and relativity
Three of the items found with a quick search:
- Cassini refines measurements of general relativity with its trip around the sun 
- Voyager 1's slingshot around Saturn showed frequency shifts in agreement with relativity 
- Gravity Probe B is a satellite launched and demonstrates frame dragging and geodetic warping of space 
Given these examples, I believe the passage recently added:
- In addition to GPS discussed above, NASA has launched numerous space probes and missions, but none of them have ever used the theory of relativity in their timing mechanisms even though they experience much weaker gravitational fields in space.
is inappropriate and misleading. Even if the space craft where not designed with relativity in mind (the Gravity Probe B certainly was designed with it in mind), Voyager and Cassini and others demonstrated the effects of relativity as they dipped into gravity wells and out of them with the frequency of the signal being sent to Earth. --Rutm 12:47, 5 August 2007 (EDT)
- The current statement is correct in the entry and we do not delete correct, educational information here. You cite some interesting articles which could also be added if they are given detail and explanation suitable for a high-quality encyclopedia. I took a quick look at your articles and they seem to be designed for public consumption, lacking satisfactory detail of a scientific level. But feel free to add a paragraph without exaggeration that explains clearly what you think these experiments demonstrate. In Christ,--Aschlafly 12:55, 5 August 2007 (EDT)
I'm not trying to be liberal or censor, but I doubt anyone thought any less of Dicke due to his support of Brans-Dicke - which is merely the addition of a scalar field to the tensor of GR - in fact, all of einsteinan GR is viable under Brans-Dicke - if the scalar field is set to null - the difference is the allowable effect of long-distance large masses that is not rsquared. Physicsnut 15:16, 17 December 2007 (EST)
- Um... this is supposed to be targetted towards high school students. Your really doing nothing but babbling to me, because I don't understand what you're talking about. --Puellanivis 20:04, 17 December 2007 (EST)
I made a change that was first related. Even by the methods that science uses to deny christian beliefs they both fail. Putting it that way is a little stronger, as well as more accurate. It's kind of hard to say that "string theory" has been a failure when just about every physicist who wants to work these days needs to learn and be productive in it. It's just entirely "thought experiments" though, and quirking math to make it fit. --Puellanivis 20:02, 17 December 2007 (EST)
If this article is directed at high school students, Dicke would not be mentioned, as his contribution to the theory of relativity was limited. Physicsnut 09:11, 18 December 2007 (EST)
- His importance to this article for Conservapedia is that he believed in something other than General Relativity, and although very intelligent, never received a Nobel Prize for any of his findings. The point being made is that if you disagree with GR, that you won't get a Nobel Prize. --Puellanivis 14:13, 18 December 2007 (EST)
- Why you would disagree with GR is beyond me, but… --SimonA 14:16, 18 December 2007 (EST)
- Whether or not I disagree with GR is irrelevant. This wiki has a goal and purpose, and you need speak toward that audience. The intention of this article is to question and critique GR, not to assume that it is automatically true. --Puellanivis 14:21, 18 December 2007 (EST)
- You realize that what PhysicsNut was explaining - as I understood it - was that Dicke didn't really believe in something other than General Relativity? All that "babbling" was describing why Brans-Dicke theory differs little from GR (PhysicsNut, feel free to correct me on this). Feebasfactor 15:19, 18 December 2007 (EST)
- That's correct. Brans-Dicke with Omega approaching infinity is General Relativity per Einstein. At no point did Dicke doubt that matter bent space-time. He merely postulated that there was another effect of matter that was not an r-squared effect. He didn't win the Nobel because someone else heard the CBR first - Dicke was just the one who realized it was proof-positive of the Big Bang. Physicsnut 16:44, 18 December 2007 (EST)
- It's bias to insist on describing theories that compete with relativity in terms of relativity. Also, the explanation for why Dicke, one of the finest physicists of the 20th century responsible for multiple breakthroughs, did not win a Nobel Prize is not as plausible as the reason given.--Aschlafly 18:26, 18 December 2007 (EST)
- Says who? Don't we need "authoritive sources for all the changes you want to make," or is your insinuation that Professor Dicke (who proved the Big Bang as his most notable breakthrough) was a young-earth creationist enough? Physicsnut 20:04, 19 December 2007 (EST)
This article is an embarrassment. Whatever - this project is obviously doomed. Physicsnut 21:05, 18 December 2007 (EST)
- Your attitude is completely unhelpful. You should not continue to post. --Puellanivis 21:21, 18 December 2007 (EST)
- Maybe so, Puellanivis, but still, try not to write off editors so quickly! Phyiscsnut is only new here, and may not have understood how Conservapedia differs from Wikipedia or other MSM outlets. Many editors have moved beyond initial misunderstandings to find ways to contribute positively to Conservapedia, despite ideological differences - so you needn't necessarily drive them off right away. Feebasfactor 00:06, 19 December 2007 (EST)
- Feebasfactor, your point is very well received. I definitely agree with your point. But people will not get anywhere without discussing and considering. If they express an attitude that this site will never be helpful if it rejects their viewpoint, then that's just silly. Aschlafly, I believe I had cleared it up fairly well with my last revert, but please feel free to review it. I think it attracts so much liberal bias, because they feel like it's home turf, or something, and get mad when anyone insults it. I suppose it's kind of the same thing as the liberals insulting the Bible. It just evokes such a strong response, that liberals get stupid (more so) and don't stop think and consider. --Puellanivis 00:27, 19 December 2007 (EST)
- Insult relativity all you want. Insult the memory of Robert Dicke and you can rot. Physicsnut 20:04, 19 December 2007 (EST)
- Physicsnut, you're making no sense. Please don't pollute our pages with namecalling nonsense.--Aschlafly 20:11, 19 December 2007 (EST)
Nobel Prize Contradiction
In the beginning of the section Evidence for Relativity you state that, "There has been little recognition by the Nobel Prize committee of either theory of relativity, and particularly scant recognition of the Theory of General Relativity." This is part of your reasoning as to why GR is not scientifically viable, yet in the section Philosophical Impact of Relativity you state that Robert Dicke is still a an accomplished physician despite his never being awarded any Nobel Prizes. Now it seems to me that if you wish to still credit Robert Dicke as an accomplished physician, which is certainly true, then it would seem only fair to leave out the comment about GR never gaining Nobel recognition. At least not in the context of trying to discredit it. You can't have it both ways. Either it's possible to be reliable and not gain Nobel recognition, or not gaining Nobel recognition speaks to the validity of the subject. One or the other; can't be both. --Aralith
- Your logic is defective, because Robert Dicke (physicist, not a physician) was slighted due to bias in favor of the theory of relativity. That bias obviously does not explain the lack of Nobel Prizes for relativity. It's the lack of evidence that is the reason there.--Aschlafly 21:10, 14 January 2008 (EST)
- If the Theory of Relativity is so commonly accepted among physicists (meant to write that in the last post but the wrong word came out of my fingers) how could it be that the Theory of Relativity hasn't gained Nobel recognition, which is voted on by a commitee made up of the same scientists who support said theory unless it is possible for a subject (person, theory, etc.) to be extremely important but not Nobel Prize worthy? In which case it makes perfect logical sense that both Dicke and GR could be a great person/theory respectively but not gain recognition from the Nobel committee.
legal right to abortion
"For example, Democratic presidential candidate Barack Obama helped publish an article by liberal law professor Laurence Tribe to apply the relativistic concept of "curvature of space" to promote a broad legal right to abortion."
Unfortunately there is no link to the article in question. It would interest me much what the right to abortion has to do with the alleged curvature of space. Either the space is curved, or it isn't. Neither of both could ever affect my moral convictions.
- This entire section is ridiculous and irrelevant. Clearly the curvature of spacetime was being referred to as a metaphor. Kristkrispies
- Where is the reference to Obama helping publish the article? The current reference points to the JSTOR article abstract, which does not mention Obama's involvement whatsoever. ATang 15:33, 29 May 2008 (EDT)
Paradoxes? Nobel Prize?
Why are these things labeled as paradoxes? The rule is the speed of light IN A VACUUM is constant WITH RESPECT TO INERTIAL FRAME. The variability of c (the speed of light) through a medium is accepted and irrelevant as far as SR is concerned. That is due to the absorption and reemission of photons by atoms as light hits travels through glass (or air or fiber optics cable). Similarly, relativity neither prohibits nor "encourages" a c that varies with the age of the universe. Indeed, the nature of the constant is still a mystery, and it may indeed be dependent on some factors we are unaware of.
If anyone is confused, shoot me an email and I'll either give you a full explanation or point you in the direction of a good resource.
Also, there are several reasons Einstein never received a Nobel Prize for relativity:
-he recieved a prize for the photoelectric effect,which has laid the framework for quantum mechanics (arguably just as important). They may have had qualms over giving two to the same person (they haven't done it yet).
-initially, there was some resistance against it by the old guard of physicists who had wasted their lives pursuing the alternative (and stupid) ether explanation for the nature of c.
-the Nobel committee favors ideas that have practical applications (hence no prize for mathematics), and at the time relativity had none.
-as to why they haven't given him one recently...well, Einstein's dead, and they don't give prizes posthumously. (A sticking point, since the full significance of a theory might only be fully realized generations after its inception).
So saying the Nobel prize hasn't recognized Einstein for relativity is misleading and irrelevant.
And now I'm curious. This article seems to have an anti-relativity bias. Why is relativity unAmerican or unChristian (besides the fact that Einstein was a German Jew)?
And what's up with the Obama reference? I don't think God asks politicians (liberal or conservative) for their opinions when he establishes His natural law. (unsigned by User:QED)
- I looked at your edits for this and found them to be wanting. The information on the Nobel committee is accurate. It's a small part of the article and no specific conclusions are stated from it. I can see why you would believe this is not a slight on relatively, nevertheless it is true as written. In the absense of any counter evidence, such as writings by the Nobel committee explaining this, it should be allowed to stand. Your other point is, temporarily, out of bounds. You may believe that relativity allows for faster than light movement 'virtually', but unless you have a source, it's not going to be included. In other words your conjecture is not going to trump a source that appears to take a neutral position.
- Lastly, do not try to play the minority card again. You aren't Johnny Cochran. The article on Einstein is extensive and written with great respect. I'm assuming you could already have checked it up to see the view on him at CP. Consider this to be your one and only warning in this area. Learn together 17:38, 29 May 2008 (EDT)
- User: Learn together's analysis is superb. The polemic comments above by QED seem to have little relation to the actual entry here, or to science.--Aschlafly 19:13, 29 May 2008 (EDT)
The introduction refers to "a principle which led to the first theory", but as far as I can see, there's no further reference to or explanation of this. What is this referring to?
It's been asked a couple of times above, but not answered as far as I can see: What relevance does Obama's comment have in this article?
Philip J. Rayment 11:54, 31 May 2008 (EDT)
- The reference to "principle" should be to postulates. That's been fixed. The reference to Obama is explained enough, don't you think? It describes political support for the theory, and use (or misuse) of it for political gain.--Aschlafly 18:45, 31 May 2008 (EDT)
- It hasn't been explained on this talk page at all. Harald asked the question above, Kristkrispies added a criticism, and the only reply was from Ed Poor suggesting the section be rewritten. QED asked about it also, and the reply didn't address that point.
- However, rereading the footnote (or did I miss that before?), I can see a very tenuous connection, but not one that warrants it being included in this article. I suggest it be removed. Philip J. Rayment 19:44, 31 May 2008 (EDT)
- Philip, I'm assuming you're referring to the Obama reference. The heading explains it. Political insights are a key part of this site, and explaining political benefit to something is essential to understanding why it is emphasized and/or misrepresented. The theory of relativity is used, or misused, to advance liberal goals, and the Obama reference is an important illustration of that. Would you like to see more examples?--Aschlafly 23:16, 31 May 2008 (EDT)
- Yes, I was referring to the Obama reference. Not, it's actually the opposite of the heading, because it is (mis)using relativity (physics) to support something political, not political support of relativity which is what the heading refers to. And as such, it's only of marginal if any real relevance to an article about relativity. I guess, though, I can see some point in it. That is, it's like an article about comets mentioning that there was a musical group named The Comets; a bit of barely-related trivia, but the sort of thing that Wikipedia and Conservapedia sometimes do (often under the heading of "cultural references"). Philip J. Rayment 02:10, 1 June 2008 (EDT)
- Philip, I'm assuming you're referring to the Obama reference. The heading explains it. Political insights are a key part of this site, and explaining political benefit to something is essential to understanding why it is emphasized and/or misrepresented. The theory of relativity is used, or misused, to advance liberal goals, and the Obama reference is an important illustration of that. Would you like to see more examples?--Aschlafly 23:16, 31 May 2008 (EDT)
I added a bit more information in the introduction to general relativity, because, as written, the article didn't really explain what the idea behind general relativity was. I don't think the edit is perfect, so people are free to tweak it or add more.--Mathoreilly 13:12, 1 July 2008 (EDT)
I also deleted "at infinite speed" from the sentence that said in classical physics light travels at infinite speed in a straight line. In classical physics, light still travels at c (approx 300,000 km/s), as Maxwell or any book on electrodynamics can tell you. In fact, it was this very observation that got people all caught up in the ether theory, because Maxwell's equations made direct reference to the speed of light. Consequently, people assumed that the equations had to be referring to the speed of light with respect to some fixed medium, i.e., the ether. Of course, we all know how well that theory worked out.--Mathoreilly 13:21, 1 July 2008 (EDT)
I removed the sentence about the Nobel prize committee not recognizing SR/GR in the evidence for SR/GR section. Mostly, the sentence just seems out of place with the rest of the section. Also, the reference provided was just a link to the Nobel committee homepage.--Mathoreilly 13:49, 1 July 2008 (EDT)
I removed the last section: time dilation and creation science. If we start including every crackpot scientific theory ever proposed, this page is going to become enormous.--Mathoreilly 14:00, 1 July 2008 (EDT)
- I see you are not around to respond, but including the latest creationary thinking doesn't mean that crackpot theories will be included. Philip J. Rayment 01:01, 16 July 2008 (EDT)
New Edits, Proposed edits
This article needs some major work, and I don't mind diving in and trying to correct some things. I added something on the equivalence principle because the existing information about general relativity was mostly mathematical with no physical insight. I'll try to clean up more when I have more time. --WLink 11:10, 24 July 2008 (EDT)
I also corrected a mistake about force defined in special relativity. The way it was written it wasn't defining a vector. --WLink 11:10, 24 July 2008 (EDT)
Further, I would really like to clean up the experimental evidence section, but there appears to be some contention regarding GPS, so I thought I'd discuss it with other editors here. The GPS definately DOES include some relativistic corrections. Consider the 1996 paper referenced in the article, on page 193 of the journal, page 5 of the article the authors tell us "The GPS operational control system corrects the pseudoranges measured by its monitor stations for the sum of the gravitational and velocity effects." What the article discusses is that the corrections are merely the average corrections, not the full specific velocity/gravitational effects. The article is being used misleadingly to make an unsupported claim. If no one objects in a day or two, I'll make the changes. --WLink 11:10, 24 July 2008 (EDT)
I'd also like to remove the stress on Dicke's theory, as Dicke's theory is basically just an extension of GR. Dicke's theory is still a metric theory of gravity involving curved space time, so most of the discussion of GR should be applicable to Dicke's theory. Dicke's theory should probably be included in another article. Also, the contention that Dicke didn't get a nobel because he proposed an alternative theory needs some supporting information or a citation or I think it should be removed. Again, if no one objects, I'll make the change. --WLink 11:10, 24 July 2008 (EDT)
I also plan, given time, to give a more "layman" style description of GR following my brief discussion on the equivalence principle. For students, diving straight into tensors, geodesics and field equations will most likely obscure the physics. --WLink 11:10, 24 July 2008 (EDT)
Einstein's Cross/Ring and Gravitational Lensing
I think it'd useful to have a picture of gravitational lensing in the proof section. As I'm not an admin, I can't upload it. There's the picture found on wikipedia which is known as "Einstein's Cross," but there are plenty of other examples of gravitational lensing that can be found in the public domain: . I suggest picking a nice looking one and displaying it. I'm personally partial to the double ring found here: . ArnoldFriend 20:43, 19 October 2008 (EDT)
- The images don't add anything new of substantive value. What's really needed here is more explanation about whether twice as much bending of light by relativity is really predicted and shown, compared to the prediction of bending of light by Newton's theory. Most people are misled to think that Newton's theory does not predict the bending of light, when it does.--Aschlafly 20:53, 19 October 2008 (EDT)
- I tried to edit, read it over, reverted it as it wasn't making sense. However, I think there should be something about photons being able to move at speeds other than c in the bit about Newtonian lensing. My phrasing was really poor, thus the self-revert. I may take another crack at this later when I can get the words right.--ArnoldFriend 21:22, 19 October 2008 (EDT)
- The bending of light in Newtonian physics is not a trivial issue. The mass can approach zero and it still bends, for example. How much it bends is debatable, I think.--Aschlafly 21:35, 19 October 2008 (EDT)
- Do you think it'd be a good idea to create a page about the bending of light under Newtonian Dynamics? Most people don't know about this and I think an explanation that's less technical than the linked source might help. ArnoldFriend 15:07, 22 October 2008 (EDT)
Science And Math Facts That Prove Einstein's Blatant Error In His Relativity Theory
With all due respect, but with regard to truth in real science, my writing here is to provide undeniable mathematical and science fact that special relativity is false science. For information this math proof was written on Wikipedia about two years ago and they squelched the truth in science by a vote of 8 to 1, and even though a supposed expert in relativity wrote that the math proofs did in fact prove relativity to be totally wrong, in the end he chose to live a lie and to squelch the truth. In the end you can also squelch truth in real science by determining that truth by the undeniable science and math facts written here or to live according to truth. Either is your choice but squelching will only suppress science facts and true science. So I am going to write the science and math that shows undeniable truth and you can decide. StevenCrum 16:31, 31 October 2008 (EDT)
- A section on "critiques of Einsteinian relativity" would be good. Do you remember the name of the expert? --Ed Poor Talk 12:58, 12 May 2009 (EDT)
More regarding the criticism of LIGO
As a student of physics, I feel myself almost obliged to add something to the discussion regarding LIGO, particularly as I work for a Professor that is part of the LIGO collaboration and have actually attended scientific conferences where the subject is addressed (though to be fair my work with her specifically deals with another one of her collaborations, Borexino).
First, as mentioned in previous discussion, it is indeed true that it was understood that LIGO, like many scientific undertakings, would need to be refined and calibrated before reaching its design sensitivity. To claim the LIGO is a failure before it has reached its design sensitivity is just as ridiculous and ignorant as criticizing any other tool or piece of equipment for not functioning before it is properly calibrated. It isn't like the LIGO collaboration is trying to pull any fast ones on anyone by being secretive about this - just do a Google search for LIGO to bring up their web page, where they discuss the details of this matter.
Secondly, it is true that the "success" of the experiment cannot be known prior to its being conducted, but if it could, what would be the point in conducting the experiment in the first place? Experimentation is a necessary aspect of science because scientific investigation fundamentally deals with the discovery of knowledge not previously known to us, and because it is not known to us, even its ultimate usefulness cannot be known a priori. The rate of observed events under the initial design sensitivity is predicted to be very low, so it would not be very surprising if we did not observe anything until advanced LIGO debuts. Even still, there is a fundamental uncertainty in the rate of events that will be seen. Maxwell was once asked what the usefulness of electromagnetism could ever be, to which he replied "What good is a newborn baby?" I do not believe I need to highlight the usefulness of electromagnetism in the modern world.
Which brings me to my third point, which is the enormous significance LIGO holds in terms of scientific potential. If LIGO is successful, it will revolutionize modern day astronomy by providing a new method for detecting cosmological phenomena. Gravitational radiation would offer another method of "imaging" the heavens, independent of electromagnetic radiation. To say that LIGO would have limited scientific benefit would be a serious rebuke to the field of astronomy in general. Optical astronomy would be coupled with gravitational astronomy as a valuable check on astronomical results attained by optical methods alone. But of course, the fundamental uncertainty we have as to what the observed rate of events will be reflects the fact that we do not know with complete certainty what cosmological objects exist, hence the very reason that LIGO would be useful.
Even more revolutionary would be if LIGO failed to detect gravitational waves. If you only assume the existence of a gravitational field, and that disturbances in that field cannot propagate faster than the speed of light, then by the very definition of wavelike phenomena, you have gravitational waves. Gravitational radiation is a prediction of General Relativity, and as such, were it to be disproved, it would falsify a prediction of a scientific theory. To say that this is not valuable would be to suggest that, for example, Michelson's experiments in search of the aether were not valuable, whereas in reality they gave supporting evidence to the idea that there is indeed no aether. At the very least, the experiment should be able to place certain restrictions on the rate of observed events. If gravitational radiation were not found, and this represented a serious contradiction with the rate of events predicted, it would be ABSOLUTELY ENORMOUS in terms of scientific relevance, and I cannot stress that enough. Something huge, somewhere in our understanding of the world, would have to be revised, be it the idea of the gravitational field, causality itself, etc. As a practicing scientist, I would almost hope that LIGO fails to see gravitational radiation, just because the scientific implications would be so unimaginably radical and weird, and force us to completely reexamine how we perceive the universe. But this subject could be argued until it reaches the realm of some very deep scientific philosophy - scientific theory is generally not viewed as being "completely true" or "completely wrong," but as a method of predicting physical phenomena, which eventually is replaced with a more accurate theory. Newtonian mechanics is not so much wrong, as it is not a good enough approximation in certain specific applications. If you want a metaphor, think about scientific progress as continuing to improve our Taylor expansion of the universe.
Though I suspect given the general tone of this article, somehow the death of GR would also please most of the contributors to this encyclopedia, as if General Relativity, a scientific theory, is somehow inherently a "liberal" idea. I'm sure that when Einstein formulated it, he envisioned it being used by Barack Obama to support a woman's legal right to terminate her pregnancy. Though, I hope for the sake of those contributors that General Relativity is either disproved, or is shown to be a "conservative" idea, because if it does adequately describe our universe, is a "liberal" idea, and God created the universe, then either God is a liberal, or he has a very weird sense of humo(u)r.
Just to get this nonsense out of the way now, I'm a registered independent. I vote, based on all of the relevant information I have been able to attain via what I believe to be credible sources, for whoever I honestly believe will be able to fulfill the duties of the office they seek, and I don't think anyone can ask any more of me than that. If any of this leads some of you to believe that I am incapable of discussing the theory of General Relativity, then I surely and sincerely have nothing but pity for you. --kfratus
- What are you talking about? The article has only one simple sentence about LIGO. Is that sentence correct or not? RSchlafly 13:13, 23 March 2009 (EDT)
- First, if you'll take a closer look at the talk page, you'll notice that there has been a good amount of discussion of the usefulness of LIGO, and that was what I was principally referencing. Secondly, the article in reality contains three sentences that in some way reference LIGO, albeit only one of them by name. The last sentence specifically mentions LIGO, the second sentence is clearly directly referencing LIGO without naming it, and the first claims that research involving the theory of relativity receives a disproportionate amount of funding. I would regard the first of those sentences as a matter of scientific opinion, which I addressed in my comments by pointing out how much impact LIGO could have on the entire astronomy community. The second and third sentences may not be incorrect, so much as they are worded as half truths. LIGO has been unsuccessful, or has failed, to detect graitational waves so far. To assert that LIGO has been unsuccessful in general would be entirely untrue, and is completely dependent on your notion of the "success" of the experiment, which I also addressed - LIGO has indeed managed to reach its target sensitivity, and whether or not they manage to detect gravitational waves, their results will still have a huge impact on the field of physics, which I would consider a successful experiment. --kfratus
- Hopefully, when LIGO disproves so-called "gravity waves", a relativist working on the project will be honest enough to call LIGO what it is. In this way, LIGO may end up being a very, very expensive way of disproving relativity, once and for all.
- I doubt it, though, with all that grant money on the line. BHarlan 23:35, 26 March 2009 (EDT)
- Maybe it is unfair to say that LIGO has been unsuccessful. But what about Gravity Probe B? That experiment seemed like a big expensive flop to me. RSchlafly 02:26, 27 March 2009 (EDT)
- I just want to make sure that the people here criticizing LIGO understand that the frequency range of the gravitational waves it was built to detect predict a variations in spacetime by only a factor of 10^-21. LIGO's longest vacuum tubes are 4km long. So physicists are attempting to measure a change in length approximately 1/2500th the diameter of an atomic nucleus.
- Yes, that is why some people predicted that LIGO would fail. RSchlafly 10:58, 7 April 2009 (EDT)
And to the poster who linked to youtube video of "gravity waves". Those ARE NOT gravity waves. Those are clouds.
- As a passer-by stumbling upon your conversation, I never really meant to end up leaving this many posts, and I apologize if I'm violating your 90/10 rule, or anything like that. But I just wanted to clarify something that I see come up very often. I frequently run into people who have this impression that all scientists are members of some secret organization that is trying to hold knowledge from the public, and that they have their own personal reasons for trying to manipulate the body of scientific knowledge. While I cannot speak for all scientists, any of the ones that I have ever met (myself included), would be absolutely more than happy to welcome more people to our field of study. Most physicists I have met enjoy what they do, and would be very willing to pass their knowledge onto others (and one would have to admit that if we were somehow manipulating the entire body of public knowledge, we'd have to be doing a pretty good job of keeping every single scientist in the entire world quiet about the real truth - not very practical). And with respect to the comments made by BHarlan, I can assure you that most scientists would actually LOVE to disprove general relativity. In many cases, scientists are not famous because they confirm the prediction of a theory, but because they disprove one, thereby radically changing what we know about the world around us. The reason Einstein was so famous was because he disproved the Newtonian picture of the universe, not because he confirmed some prediction of it. But this is just like any other profession - think about it, if a rival of yours was successful in some way, wouldn't you be just dieing to somehow prove them wrong and rub it in their face? Scientists are people too, subject to the same personality traits as everyone else. This is why most physicists feel relatively comfortable with the scientific process - they know that if something is proposed as a theory, there will be a thousand people just itching to prove it wrong, thereby stealing the limelight for themselves. I think that if I ever found a way to disprove relativity, I'd practically have a heart attack out of excitement (and you can be sure I'd get a Nobel prize for it, too). In fact, it is already a well known fact that GR must be wrong at at least some level, because as it is formulated now, it's not compatible with some of the basic tenets of quantum mechanics. Though, I'm still pretty sure we'll see gravity waves, if you want my opinion. Gravity waves are predicted by ideas much more fundamental than GR (aka, the finite speed of light), and so GR could be be wrong, and we could still have gravity waves - as long as you define the propagating influence of gravity as a "wave," and assume that information can't travel faster than the speed of light, then there you have it, really. And with respect to the video of the clouds, those are actually "gravity waves," but of a different sort. The term comes from how the Earth's gravitational field effects atmospheric conditions. So it is the same term for two very different things, which unfortunately may lead to some confusion for some people. And with respect to Gravity Probe B, I admit that I do not know as much about that experiment, and off the top of my head would not really be able to debate it. Though if I remember correctly its data analysis is scheduled to continue into 2010, so I would hesitate to say anything until then (other than the fact that in principle, I find its goals fairly relevant - if you really wanted to test the geometrical nature of GR, you should try to confirm/disprove one of its craziest, most non-intuitive predictions - aka, frame-dragging).
- But I can assure you, I have met plenty of people who are very politically conservative, and believe in gravity waves. In fact, many deeply spiritual people believe that relativity is a sign of God's existence. The basic idea goes that if relativity were not true, there would have to be some preferred reference frame, which would have to be chosen somewhat arbitrarily. But how could a divine creator just make some arbitrary choice like that? Not very elegant, if you ask me. In fact, I have heard that some people actually cry when they finally understand GR, because of what an elegant theory it is. If you want to read more about ideas like that, I definitely suggest Brian Greene's book, "Fabric of the Cosmos." If you want my honest opinion, I have yet to come across anything in my study of physics that I believe is a serious threat to the existence of some intelligent creator. From what I can gather, most physicists don't even concern themselves with such an aim - if God exists, then he exists. Our goal is to study what we can see, and make useful predictions based on that. If it's all just a result of God, then so be it. The only result will be that we've come to know Him a little better through out study of the universe and its workings. --kfratus
- The article hardly says anything about gravity waves. Are you suggesting some change to the article? RSchlafly 12:00, 12 April 2009 (EDT)
The article suggests that Newtonian physics somehow suggest the bending of light, which is impossible according to Newtonian physics. Since a photon has zero mass, it cannot be bent by the force as described by Newton.
- Huh? I thought it was Newton who discovered the bending of light, which occurs as light enters a prism. It is because the various frequencies of light bend by different amounts that we get the rainbox effect (see spectrum). Or I have I totally forgotten my high-school physics and history of science? --Ed Poor Talk 17:00, 19 May 2009 (EDT)
Next point, Newton's action-at-a-distance theory of gravity seems to be taken as fact. The idea that general relativity violates this is used as a point against it. Newton himself stated, and I quote:
"It is inconceivable, that inanimate brute matter should, without the mediation of something else, which is not material, operate upon, and affect other matter without mutual contact; as it must do, if gravitation, ...., be essential and inherent in it. And this is one reason, why I desired you would not ascribe innate gravity to me. That gravity should be innate, inherent, and essential to matter, so that one body may act upon another, at a distance through vacuum, without the mediation of anything else, by and through their action and force may be conveyed from one to another, is to me so great an absurdity, that I believe no man who has in philosophical matters a competent faculty of thinking, can ever fall into it."
Therefor, even the founder of classical mechanics saw action-at-a-distance as problem, so how is it in any way evidence to contradict a well tested theory?
- Oh, ignoring phenomena such as quantum entanglement, are we? --PhyllisS 22:57, 11 May 2009 (EDT)
- Actually, no. The reason that a grand unified theory is necessary is because of the discrepancies of the quantum world and the macro world. Both have been tested, neither conclusively, but evidence is in their favor. All I am saying here is that you can't use this (logically) as a point to disqualify an entire theory. Especially when you use this point when referencing a person (Newton) who had a problem with it.
- Kindly use the signature button (10th from the left above) to "sign" your comments, so we can tell who's saying what.
- Newton assumed nothing; he "feigned no hypotheses." Accordingly, he didn't have "a problem with it." It was his peers who could not accept it. Newton's quote above does not question "action at a distance," but is commenting on the nature of matter.
- Many still refuse to accept action at a distance (and non-locality), as your own viewpoints demonstrate.--Andy Schlafly 23:16, 11 May 2009 (EDT)
- Still refuse? As one of your relatives pointed out, there is some support for it, such as quantum entanglement, but on a large scale (say larger than the what is it now, 1 km?) past where quantum entanglement has been proven, there is no proof or any proof to suggest it should be true. And, I'm sorry, but I have to say. Don't assign my viewpoints to me sir. I will decide what I think based on fact. What I form as opinion, I will state as such. I don't understand how people can read this article with any knowledge of physics and agree with it. None of my professors, mentors, or scientists that I have met would support such statements. The fact that you are doing so proves the disgusting and twisted lengths that some people will go to in order to make established fact comply with their own super-conservative beliefs. It is people like yourselves that are ruining the republican party and make me scared for the future of America.--RobertSJ 23:22, 11 May 2009 (EDT)
- Many still refuse to accept action at a distance (and non-locality), as your own viewpoints demonstrate.--Andy Schlafly 23:16, 11 May 2009 (EDT)
- So even though non-locality and action at a distance have been fully proven in laboratory experiments, you claim "there is no proof or any proof to suggest it should be true" beyond a certain distance. Surely you don't think there is one set of laws for less than an arbitrary distance, and another set of laws for larger than an arbitrary distance. No, the real problem here is that some people, perhaps including yourself, do not and will not accept action at a distance regardless of the proof.--Andy Schlafly 08:35, 12 May 2009 (EDT)
Next point, several "obscure physicists" is not the same as almost the entire community of physicists (which is the actual truth here.) Gravitational redshift perfectly explains the way that signals between earth and GPS satellites are different in time. That is how current GPS positions are calculated.
You mention LIGO at the very end and gravity waves as well. There is no prior mention. The prior mentions should explain what gravity waves are, why they are so weak, why they can probably only be detected from very massive binary systems, and why even when these massive binary systems are found the radiation should be so weak that the immense precision of LIGO and LISA are required.
Just some points on things that are not accurate or need to be clarified in order to not leave the reader with a false interpretation of scientific fact.
- Also edit, I am a physics major attending a well-respected and also conservative school (Vanderbilt). I have conducted research in physics at a national lab (ORNL), and like to keep up on this kind of thing. I am a moderate but conservative leaning voter.--RobertSJ 23:22, 11 May 2009 (EDT)
- I responded in greater detail above, but let me just add that not everything you've learned is true, and not everything your professors state is true either. Hopefully you'll admit at least that.--Andy Schlafly 08:35, 12 May 2009 (EDT)
- Photons have zero rest mass, but they are not at rest. A reference is given for the deflection of light as predicted by relativity theory. So the article seems to be correct about the bending of light. RSchlafly 12:41, 12 May 2009 (EDT)
- I wish that critics of CP would help us write basic physics articles instead of trying to "prove us wrong". Please help me finish the "bending of light" article, in accordance with what we all agree about Newton's discoveries many decades ago. Then we can discuss how to present quantum physics, okay? --Ed Poor Talk 17:04, 19 May 2009 (EDT)
Non-Locality and Quantum Field Theory
There is no action at a distance, nor non-locality, in quantum mechanics nor field theory. None. You're confusing two different subjects.
First, action at a distance: True, in Newton's gravity, there is action at a distance. But this is totally different from anything to be found in QM or field theory, which have no action at a distance. All Hamiltonians in the standard models of field theory (QED, electroweak, QCD) are strictly local Hamiltonians. Forces are exerted by passing virtual bosons back and forth in space, like footballs. Interactions (like electron/photon, then photon/electron) are all 100% local.
The fact that Newton's theory assumed action at a distance (without proof) does not mean that ALL theories require action at a distance. Why should that follow? Why should modern theories be limited by Newton's unproved assumptions? Quantum field theory is immensely more accurate, measured objectively, than Newton's gravity force ever was. QED (with special relativity built in) predicted the anomalous magnetic moment of the electron accurate to one part in a TRILLION. Newton's theory was never even close to that level of accuracy! Newton could never accurately compute the orbit of Mercury or gravitational lensing to one part in a trillion! Or billion. By objective criteria, field theory is more accurate than Newton.
Second, non-locality: non-locality is not the same as action at a distance. Action at a distance requires exertion of a FORCE. Nothing in QM is in fact non-local. The only thing non-local about QM is the Copenhagen interpretation of wavefunction collapse, which is not a part of the equations, but a way of visualizing the effect of observation a QM system.
You have mentioned quantum entanglement as a supposed example of non-locality. Entanglement, and phenomena like quantum teleportation, do not exert FORCES, so they are not actiona at a distance! Further, quantum entanglement can never be used to transmit information faster than the speed of light. Hence, there's no contradiction between QM and SR. Field theory has SR built in. There is no experiment, in quantum teleportation nor EPR paradox, Bell's inequality etc., that can possibly transmit information FTL. Describe one experiment, just one entanglement experiment, that can supposedly transmit info FTL. I dare you. Just one.
So what is this supposed "non-locality" then? The Copenhagen interpretation of QM says that the wavefunction should "collapse" (revert to a single eigenfunction) everywhere simultaneously when an observation is made. If this really happened, it would be a problem for SR, because in SR, simultaneity is relative to the observer. But, two problems. First, this supposed "collapse" can never be observed and can never be used to transmit info FTL. Second, the Copenhagen interpretation is deeply flawed because it never defined what an "observation" was. It is no longer the most popular interpretation; among physicists, the Many Worlds interpretation is more popular now, because it precisely defines what observation means, in terms of quantum decoherence, so MWI connects better to macroscopic thermodynamics.
If you want to (groan) argue the point, you can argue that Copenhagen and Many Worlds are both non-local, but so what? They're visualizations, not equations, and certainly not forces, nor "actions"!! When neither visualization scheme can be used to transmit info FTL, nor exert a force, this is no problem for SR at all!
The only big problem here is that field theory is incompatible with GR, not SR. True. Everybody knows this is the biggest problem in physics. No one knows whether the flaw is in GR, field theory, or both. However, either way, there is no problem between field theory and SR. Field theory has SR built in, and is (objectively measured) the most precise scientific theory in history. If you argue this, I'll swamp you with experimental proofs. Cuddlytakun 15:53, 18 May 2009 (EDT)
- "Cuddlytakun", you've obviously made up your mind that action at a distance and non-locality must not exist. But all evidence is against your view. Would you support spending another billion dollars of taxpayer money looking for gravitons to support your view? I hope not.
- How about this: raise private capital for searching for gravitons to support your philosophy. Then we'll see how many really agree with you, rather than just going along for the ride.--Andy Schlafly 20:10, 18 May 2009 (EDT)
Au contrere mon frere, you made up your mind that action at a distance is the only type force possible. I have nowhere said action at a distance is impossible. I've said Newton never proved, could not prove, it was the ONLY possibility. I suppose it's possible for both to exist. In field theory this would mean a Hamiltonian that is part local and part non-local. Sometimes the idea is kicked around. Mathematically, non-local Hamiltonians are a pain in the ass to compute with, and counterintuitive, but theoretically possible.
Why have you decided that action at a distance is the only possibility? Just because Newton's theory assumed it without proof, this does not mean all forces in nature must likewise be action at a distance. Think about this: suppose you and I are ice-skating. I toss you a football. When I throw the ball, reaction force pushes me backward. When you catch it, the collision pushes you away from me. Basic repulsive force at a distance, composed of local pairwise interactions. All forces in the standard model (electrodynamic, weak nuclear, strong nuclear; that is electroweak and QCD) work that way. The footballs are virtual bosons of spin 1.
"All evidence is against your view"? What evidence? What are you talking about!? "Your view"? Hell of a dismissive thing to say. It's not "my view", it's the view of everybody in physics, including Weinberg and Wilczek. Do you even know the meaning of the quotes you lifted out of Wilczek and Weinberg's speeches!? Seriously, do you have any evidence in mind, any at all, or are you just blowing smoke?
So you drag funding issues into it. As you know, the Europeans paid for the Large Hadron Collider so all the geniuses are moving to Europe. The last smart person to leave America, please turn out the lights.
But don't dismiss field theory as "philosophy". You're playing word games because you can't back up your statements with facts. These are facts: with field theory, you can predict the experimental value of the anomalous magnetic moment of the electron to one part in a trillion. Of the muon, to one part in a billion. You can compute the mass of protons and neutrons and mesons from first principles, a priori! Which is an inherently relativistic computation (m = E/c2, with E from local QCD.) The Z boson's existence and mass were predicted before its discovery via electroweak theory, which is an entirely local Hamiltonian. Newton's gravity could never compute anything to an accuracy of one part in a billion, or compute masses of particles a priori, or predict new particles before they're observed! Why do you call field theory philosophy, but Newton's theory is science? Explain the definition of "philosophy" you're using here. Word games! Cuddlytakun 23:55, 18 May 2009 (EDT)
- Your "word-to-substance ratio" is very high; you are likely a liberal. See point 2 in liberal style.
- I beg you to open your mind and learn here, for your own sake. Look at how you refused to address my simple point. Instead you cling to your perception of what you think others believe.--Andy Schlafly 09:11, 19 May 2009 (EDT)
How can I address your point, when there's no way to know what IS your point?
Is your point "All evidence is against your view"? OK, dish it out. Just list the top 3 evidences showing that action at a distance is the only way possible for particles to interact.
My point is: the horrible paragraph in the Intro about non-locality and field theory, incorrectly implies field theory is defective. It is not. Field theory is the most successful theory in the history of science. Weinberg's statement about field theory not being "robust" cannot be assessed by the reader because "robust" is not defined in this context. Weinberg's speech was written in '79, his criticisms were resolved by later successes of QCD and QED, as Wilczek described. That paragraph should go. You're trashing relativity and field theory too. Why?
Write 3 sentences. Top 3 evidences that action at a distance is the only way for particles to interact.
--Cuddlytakun 16:10, 21 May 2009 (EDT)
- How about ONE evidence, Cuddles? Like the evidence that you refused to go beyond talk and improve the articles. Nothing happened at all by way of action of your part, either in this article, nor in Quantum field theory, which definately needs improvement. Instead of action, all we get is gab from you. Karajou 16:23, 21 May 2009 (EDT)
OK. I have significantly updated the page on Quantum field theory. EdPoor said the page needed writing, and Karajou asked me to make an improvement, so I rewrote it. Now I'm going to fix the last paragraph in the Intro, which trashes field theory. Here I'm going to explain and justify my rewrites, line by line.
"...which [Relativity] assume that time is an intrinsic part of space and assumes absolute locality." I have rewritten as "Unlike Newtonian mechanics, in which space and time intervals are each invariant as seen by all observers, in SR the only invariant quantity is a quadratic combination of space and time intervals (x2 - c t2)."
It does not make sense to say that in relativity "time is part of space", nor is space part of time. The theory is about a space-time continuum, not time as part of space! They're symmetric in the metric, but with different signs.
"The non-locality of quantum mechanics and Newtonian physics contradicts the theories of relativity" I have rewritten as "The (assumed) instantaneous transmission of Newtonian gravitational effects contradicts special relativity." This statement is more accurate.
What does it mean to say "Quantum mechanics is non-local"? Vague. Quantum wavefunctions are non-local, and in the event of quantum entanglement (correlation) the wavefunction is multi-particle. But this is not relevant to relativity because real particles (unlike virtual particles) cannot transmit info faster than light (light cone restriction conserves causality). No entanglement experiment (e.g. teleportation) can transmit info faster than light, in fact teleportation requires classical info transmission SLOWER than light, look it up.
The Copenhagen interpretation of the collapse of the wavefunction upon observation is non-local but it is an interpretation, and likewise, cannot transmit info faster than light.
'Causality breaks down under relativity if information can be transmitted faster than the speed of light. In addition, the uncertainty principle suggests that light photons must sometimes travel faster than the speed of light despite the assumption of relativity; "[t]he only known way to resolve this tension involves introducing the idea of antiparticles."'
I have rewritten as: 'In quantum mechanics, the uncertainty principle suggests that virtual particles can sometimes travel faster than the speed of light which would violate causality, but "[t]he only known way to resolve this tension involves introducing the idea of antiparticles." Consequently, in 1928 Paul Dirac derived the Dirac equation, one of the first quantum mechanical equations compatible with special relativity, by which Dirac predicted the existence of antimatter. Four years later, antimatter (the positron) was discovered by Carl Anderson, as successfully predicted beforehand by relativistic quantum mechanics.'
This statement accurately reflects the facts that, first, some quantum mechanical equations are compatible with SR (e.g. Dirac equation, Klein-Gordon equation), and that Dirac's prediction of antimatter before its discovery was a SUCCESS for relativistic quantum mechanics, not a failure! Which is the point Wilczek was making in the citation from his Nobel speech: success, not failure.
"Quantum field theory is another attempt to partially reconcile relativity with quantum mechanics. But "quantum field theory, which was born just fifty years ago from the marriage of quantum mechanics with relativity, is a beautiful but not very robust child."" I have rewritten as "Quantum field theory, a generalization of quantum mechanics, is fully compatible with special relativity but not with general relativity."
I have deleted the quote from Weinberg because it gives the inaccurate picture that there's something wrong with field theory. There isn't. The Quantum field theory article lists some of its many successes.
Cuddlytakun 16:46, 22 June 2009 (EDT)
The proofs for relativity are both mathematical and physical, yet this article tries to say otherwise. If someone doesn't know them then can I please put them in without them being edited out within minutes?
--Unlikelyconvert 13:14, 20 May 2009 (EDT)
- You're not going to push anything that is false here. Make your very best edit first and let's see how that looks, before you spend a lot of time.--Andy Schlafly 13:20, 20 May 2009 (EDT)
I haven't tried to push anything, I've made a few edits already, corrected a couple of scientific mistakes, and said this. Can you please open your mind for just 10 minutes and look at both sides of this debate? Look at the overwhelming consensus on relativity, and then I will look at any source you give me forwarding your viewpoint. As I've said in another talk page, I am willing to change my views if you can prove them. --Unlikelyconvert 13:27, 20 May 2009 (EDT)
- My mind is open, and I've invited you to make your very best edit first. Or, alternatively, state it here. Keep your word-to-substance ratio low, however. See liberal style.--Andy Schlafly 13:30, 20 May 2009 (EDT)
Looking above, many people have stated the mathematical proofs in their different forms, yet you dismissed most of them almost out of hand. And I am not a liberal in respect to your definition, I am the (in my experience) the more common kind, the kind who will accept evidence. And you don't seem that open minded, as when i offered to put in proofs you started by saying I was trying to spread falsehoods. Proof makes something true, not false.
--Unlikelyconvert 13:34, 20 May 2009 (EDT)
- I'm going to move on to more substantive edits. Your word-to-substance ratio has been very high.--Andy Schlafly 14:20, 20 May 2009 (EDT)
- I'm going to ban uc if he doesn't stop trying to make people change their minds. If he wants to provide information about a novel, unproven or untested theory he's welcome to do that. He can even write about a theory which we conservatives know is false, provided that he doesn't try to present it as valid.
Complex equations of relativity
What do you mean when you write that "Unlike most of physics, the theories of relativity consist of complex mathematical equations...". I believe that most people would consider Maxwell's equations complex...not to mention the equations found in quantum mechanics.
- Your quote is misleadingly incomplete, and Maxwell's equations do not describe an additional dimension.--Andy Schlafly 11:24, 15 October 2009 (EDT)
- Sorry if my abbreviated quotation was misleading. I wrote it that way because I perceived that this article was intending to state that the theories of relativity are more complex than other physical theories. Perhaps I misunderstood the intent. In either case, I agree that the relativity equations are complex, but other physical theories are just as complex.
- Maxwell's equations desribe electric and magnetic fields as a function of three spatial dimensions and time. Although descriptions of relativity may refer to time as the fourth dimension, the equations of relativity use only three spatial dimensions and incorporate time as a fourth MATHEMATICAL dimension (which does not mean that it is another spatial dimension).--RustyR 13:06, 15 October 2009 (EDT)
Quantum Field Theory/Changes to the Intro
The introduction currently contains false information- it asserts that relativity stands apart from the rest of physics, in that it relies on hypotheses and complex mathematics. All of physics relies on hypotheses and mathematics- for instance: Newtonian mechanics relies on the assumptions F=ma, objects at rest remain at rest, objects in motion remain in motion. Quantum mechanics relies on the Von Neumann postulates,etc.
Also, the mathematics of special relativity are really no more complicated then Newtonian mechancis, and less complicated then Maxwell's equations or quantum mechanics.
The introduction also asserts that quantum field theories are not entirely successful (in combining special relativity with quantum mechanics). This is blatantly not true-the standard model is the most successful theory we have, and it is a quantum field theory.
The last change I made was to the rewording of the assumptions of relativity in section 1. The constant speed of light cannot be reworded as nothing can travel faster then light- the latter follows from the former. The first is an assumption of the theory, the second a result of the theory (the difference between an axiom and a statement proven from the axiom).
Also, I think the paragraph about special relativity and Newtonian gravity being in conflict is an excellent opportunity to talk about the need for general relativity, so I would like to add something about that.
On a stylistic note, maybe the references to quantum mechanics should be grouped together in their own section, or their own article? Also, perhaps-we should include an "evidence for" section to contrast with the "evidence against"?--WLink 11:38, 15 October 2009 (EDT)
- You've made a number of false assertions here. Newton expressly rejected relying on hypotheses. His physics is based on observation, in contrast with relativity, where mathematics was developed first and then data was sought to support it.
- Relativity relies on four-dimensional space; other physics does not. It was widely claimed for years that few could understand relativity, and Eddington even has a famous quotation to that effect.
- Quantum Field Theory is incomplete at best and incoherent at worst. Even one of the rare Nobel Prizes for it has an admission of incompleteness in the acceptance speech.
- Relativity is a liberal's fantasy, and Obama even supposedly helped with a paper drawing liberal conclusions from it. Too bad it's all assumption and little more.--Andy Schlafly 13:35, 15 October 2009 (EDT)
Experiment has born relativity out time and time again. Michelson Morley, Ives-Stilwell, Pound-Rebka,Shapiro time delay, etc. The Tevatron has been confirming special relativity millions of times every second for years now.
Now, as to Newton- Newton made a famous statement about relying on hypothesis, that does not mean he didn't do it. I recommend his famous paper on prisms (http://www.newtonproject.sussex.ac.uk/). He advanced a particulate model of light, etc. Newton did make hypothesis, and his physics relied on it. Again, F=ma, the existence of inertial frames, etc. Quantum mechanics rests on highly mathematical postulates (the Von Neumann postulates). At least relativity's postulates are about physics, not mathematics.
Now, when you discuss relativity, you are conflating special and general. General relativity requires a great deal of mathematics, and it is general relativity that Eddington's famous quote was about. Special relativity is much easier. Changing time from an evolution parameter (as in Newton) to a coordinate (relativity) does not complicate things much. Single variable calculus and a good knowledge of algebra is enough mathematics to come to grips with the field. Quantum mechanics and Maxwell's equations require a solid knowledge of vector calc.
Lastly, a quick perusal of the nobel prizes awarded to work on the Standard Model/Field Theories since 1965- 1965,1967,1968,1972,1979,1980,1982,1984,1988,1990,1995,1999,2004,2008. Its not rare at all, a bit better than 1/3 of the prizes. Further, claiming something doesn't make it so- quantum field theories are the most precisely tested theories in all of science. g-2 of the electron is the most precise measurement mankind has made, and it matches the theoretical calculation to 10 significant figures. What more could you ask of in a theory? --WLink 15:45, 15 October 2009 (EDT)
- Point 1: no experiment has confirmed either of the two basic assumptions of special relativity, or many of the claims that are mathematically derived from those assumptions.
- Point 2: you seem to think F=ma is a hypothesis rather than a definition of force. Regardless, your argument does not negate Newton's quote or affect any aspect of this entry.
- Point 3: we do consider special and general relativity to be part of the same overall theory, as most people do.
- Point 4: your reference to "significant figures" (the better term "significant digits") is plainly silly and meaningless. The string of dates for Nobel Prizes counts for even less. When the prize was genuinely given for quantum field theory, the recipient honestly acknowledged how inadequate the progress has been. I don't know of anyone who seriously disputes that.
- Look, we can cut through a ton of subterfuge if you would just address my last point, which you avoided: liberals like Obama (and you?) like relativity for its political ramifications. Suit yourself, but don't pretend it is based on physical observations rather than unproven assumptions.--Andy Schlafly 17:51, 15 October 2009 (EDT)
- : I agree with WLink. It is just not true that the math of relativity was developed before the physics. Relativity does not rely on 4-dimensional space any more than quantum field theory. The first 2 paragraphs of the article (starting with "Unlike") are false in almost every detail.
- The progress in quantum field theory has been huge. Who said it was inadequate? If so, I dispute that, and all those Nobel prizes dispute it.
- What are the politics of relativity? Maybe you should spell that out. RSchlafly 18:08, 15 October 2009 (EDT)
- The politics driving relativity is self-evident: moral relativism, curvature of values, no fundamental frame of reference, no action at a distance, and an implicit denial of the arrow of time. Read the famous Tribe/Obama paper if you want detailed application to specific political issues, such as abortion.
- Name one productive advance made possible by the "huge" progress in quantum field theory. There aren't any.
- General relativity, which is the main component of relativity, certainly was developed before physical observations.--Andy Schlafly 19:43, 15 October 2009 (EDT)
Point 1: Now you are essentially restating the problem of induction- it is a problem with ALL of science, not just relativity. Also, Michelson Morley DOES essentially test the constant speed of light postulate.
Point 2: As I said above, even if we take Newton as a special case, what about quantum mechanics, Electricity and magnetism, etc. All require assumptions! Even if Newton's quote were true, Newtonian science would be the exception, not the rule.
Point 3: Most people consider special and general relativity different, but related theories. They are usually taught in separate courses, and have different domains of usefulness (general relativity being a theory of gravity is used in gravitational problems. Special relativity being a theory of fast moving things is used in particle accelerators).
Point 4- the point about significant digits is not silly- quantum field theory makes the most precise/accurate prediction of any theory of all of science. Further, everyone of those Nobels I listed was given for an aspect of field theory.
As to your last point- reality is what reality is. Whether or not liberals can twist something to fit their ideology is irrelevant.
But, I give up. I wanted to add my expertise as a particle physicist to your educational resource. If you don't want what I have to offer, I have more productive things to do. --WLink 19:12, 15 October 2009 (EDT)
- Point 1: No, the Morley experiment comes nowhere near confirming the postulate of relativity about the speed of light. And it's absurd to tar all of science with the sweeping, unproven assumptions on which relativity depends.
- Point 2: Your answer is unresponsive. Nothing else in physics depends so heavily on broad, far-fetched assumptions as relativity does.
- Point 3: Your answer is disproved by the name "general relativity" itself. It is the general theory, of which special relativity is a special case.
- Point 4: Your claim that something "makes the most precise/accurate prediction of any theory of all of science" is a familiar and silly assertion made by liberals. You haven't explained why that claim should be meaningful, and it isn't. High school-level electromagnetism can make completely precise predictions. If you think there is a striking insight made available by only quantum field theory, then let's hear it. But pretending it is great does not make it so.
- On your last point: you're plainly wrong in claiming that "[w]hether or not liberals can twist something to fit their ideology is irrelevant," because you studied in school what liberals like and haven't even heard with an open mind contrary viewpoints. If you received a good grade for the reciting liberal viewpoints, then it becomes even more difficult for you to reconsider.
- We want open-minded talent here. If you give up, then it is because your mind was made up. I urge you to open your mind more, but that's obviously up to you.--Andy Schlafly 19:43, 15 October 2009 (EDT)
- No, relativity does not rest on assumptions or complex equations any more than any other theory of physics. It is not true that electromagnetism can make accurate predictions without relativity. Maxwell's theory is a relativistic theory. The origin of special relativity is in Maxwell's equations, not in any unconfirmed assumptions. I have pointed to 8 false and unsourced sentences in the article. Your comments make no sense. What do you think the Michelson-Morley experiment was measuring? Do you have some interpretation of it that differs from everyone who has ever written on the subject? RSchlafly 22:34, 15 October 2009 (EDT)
- You seem to be relying on some kind of fundamental distinction between special and general relativity. Special relativity is simply (as its name suggests) a special case of general relativity.
- The Michelson-Morley experiment does not establish the assumption of relativity about the speed of light, or relativity's insistence that action-at-a-distance is impossible. We can edit the Michelson-Morley entry here if you want to get into the details of what it showed, and did not show.
- Basic electrical circuits, like the kind in computers, are predicted perfectly by electromagnetics without any use of relativity.--Andy Schlafly 22:42, 15 October 2009 (EDT)
- Mathematically, special relativity is tangent to general relativity. I am just using common terminology. If you don't believe relativity, that is your business, but it is essential for all of physics in the last 150 years. And yes, it is needed to understand the electromagnetism used in computers. I suggest you find sources for your statements. I repeat, I count 8 false and unsourced sentences just in the first couple of paragraphs. RSchlafly 22:59, 15 October 2009 (EDT)
- The claim that relativity "is essential for all of physics in the last 150 years" is a standard over-the-top assertion of those who were fed it in school and have never reconsidered since. The truth is no one can cite a single achievement of value by the theory. For something supposedly so essential for 150 years, don't you find it odd that you cannot cite anything of value that has come from it???
- I was just pointing out errors in the article, and not trying to start a discussion on "value". RSchlafly 23:38, 15 October 2009 (EDT)
- Special relativity introduced the equivalence of mass and energy, and that explained the extraordinary kinetic energy of the products of radioactive decay and led to harnessing both nuclear power and the nuclear weapons which defeated Japan and maintained peace for sixty years. Linuxgal 23:45, 15 October 2009 (EDT)
- Linuxgal's comment illustrates, perhaps innocently, one (of many) false claims promoted by relativists. In fact, relativity had nothing to do with the Manhattan Project.
- Here's a basic question that relativists should answer: have taxpayers recovered the hundreds of millions of dollars of their money that have been spent in pursuit of relativity claims, such as the futile search for gravitons? (Of course the answer is "no".)--Andy Schlafly 23:50, 15 October 2009 (EDT)
- Sorry to butt in, but I'm wondering how relativity is at all linked to modern electronics. From my (admittedly limited) knowledge, quantum mechanics fundamentally underpins modern electronics (CPU design has to account for quantum tunneling, etc.), but the precepts of relativity are totally irrelevant at the microscopic scale. DouglasA 00:10, 16 October 2009 (EDT)
- No, relativity is not irrelevant. Magnetism is understood as a relativistic effect. The theories that make Maxwell, Dirac, and Feynman famous are all relativistic. RSchlafly 03:34, 16 October 2009 (EDT)
- It's true that relativity has nothing to do with modern electronics, that's actually explained by Quantum Electrodynamics, but Einstein opened that up with his paper on the photon, which was published in 1905 together with his first relativity paper, and people mash it all together (BTW I was the one posting as Linuxgal, I didn't know we had to use real names). Gravitons are not a relativity claim, it is an attempt to make gravity into a gauge field theory like electromagnetism and nuclear forces, which use bosons to mediate interactions between particles (and there's no evidence for it)...general relativity explains gravity as particles following a "geodesic" in the warped geometry of space-time RubyR 09:47, 16 October 2009 (EDT)
- Relativity has produced nothing of value, and this discussion isn't doing any better. The replies above are unresponsive to my points, and historically incorrect. Are you saying that taxpayers should be forced to pay for this unproductive work? Do you donate to it? if your answer is "yes, no" then that speaks volumes.--Andy Schlafly
- RubyR/Linuxgal is incorrect. Quantum electrodynamics has everthing to do with relativity. QED was created to make quantum mechanics relativistic, and it is a fully relativistic theory. That is how we got the Dirac equation of the electron. Without relativity, there is no QED, and no understanding of modern electronics. However, QED has nothing to do with with Einstein's 1905 paper on the photon. Einstein proposed that light is transmitted as a particle, rather than a wave, but QED treats light transmission as a wave.
- Andy, this Talk page is for improving the article. I suggest fixing the errors, and let the reader decide for himself whether relativity is worth taxpayer support. RSchlafly 12:01, 16 October 2009 (EDT)
- I'm all for correcting "falsehoods", but let's start with your own comments. You say, "Without relativity, there is no QED, and no understanding of modern electronics." That's just wrong, historically and logically. The inventors of the transistor at Bell Labs had probably never even taken a course in relativity, let alone used it. Relativity does not come up in the basic QM courses taught in college. Virtually no papers about electronics even mention relativity.--Andy Schlafly 12:52, 16 October 2009 (EDT)
- The transistor inventors used Maxwells equations, a relativisitic theory. Yes, you can learn basic QM (eg, Heisenberg, Schodinger, von Neumann) theory without relativity, but you need relativity for QED (eg, Dirac, Feynman). There is no understanding of quantum fields, except using relativity. RSchlafly 14:24, 16 October 2009 (EDT)
- Maxwell's theory predates relativity by thirty years or more. It is Maxwell that informed Einstein, not the other way round. RubyR 14:38, 16 October 2009 (EDT)
- The transistor inventors used Maxwells equations, a relativisitic theory. Yes, you can learn basic QM (eg, Heisenberg, Schodinger, von Neumann) theory without relativity, but you need relativity for QED (eg, Dirac, Feynman). There is no understanding of quantum fields, except using relativity. RSchlafly 14:24, 16 October 2009 (EDT)
- That's right, Maxwell predated Einstein by 30 years or so. Your point? Maxwell's equations are still relativistic, ie, invariant under the Lorentz group. Maxwell's equations are taught and understood today in terms of relativity. You can view special relativity as just a way of understanding Maxwell's equations. RSchlafly 15:11, 16 October 2009 (EDT)
- A relativist tries to view everything in terms of relativity ... including morality and values and an alleged impossibility of action-at-a-distance like what is described in the Bible. Next thing we'll be hearing relativists claim that Edison's work was relativistic too!
- Ruby is right. Call relativity Maxwellian if you like, but not vice-versa.--Andy Schlafly 15:28, 16 October 2009 (EDT)
- When I make the claim that relativity has nothing to do with electronics, it is to a first order approximation. NASA/JPL engineers fly their space probes all around the solar system with a high degree of accuracy without resorting to Einstein's relativistic corrections to Newton's basic theory. About the only place where relativity must be taken into account in electronics is the collating electromagnets at the CERN collider, where proton streams are accelerated to very close to the velocity of light. Otherwise the "slop" inherent in digital timing (you must wait for a signal to stabilize before accepting it as valid) buries the effects. RubyR 16:35, 16 October 2009 (EDT)
- Magnetism is a relativistic effect. If you are using magnetism, you are using relativity. If you deny relativity, then what is magnetism? RSchlafly 16:48, 16 October 2009 (EDT)
- And what is morality? Look, there's no denying that relativists insist on applying their assumptions to anything and everything. Magnetism doesn't need relativity, and relativity hasn't produced a single thing that is productive.--Andy Schlafly 17:15, 16 October 2009 (EDT)
This discussion has degenerated in Andy arguing points that are not in the article. I suggest fixing these errors:
- Unlike most of physics, the theories of relativity consist of complex mathematical equations relying on several hypotheses. - WRONG.
- These equations assume that it is forever impossible to attain a velocity faster than the speed of light, a hypothesis that can never be fully tested. - No, the equation show increased inertia as the speed of light is approached, something that has been experimentally verified for a century.
- By relying on assumptions about nature rather than observations, ... - No, SR relies essentially on electromagnetic observations.
- Relativity rejects Newton's action at a distance, which is basic to Newtonian gravity and quantum mechanics. - No, only to some interpretations of QM.
- The mathematics of relativity assume no exceptions, yet in the time period immediately following the origin of the universe the relativity equations could not possibly have been valid. - Nonsense. What is the source for this silly statement?
- Relativity has been met with much resistance in the scientific world. - No reputable physicist in the last century has failed to accept relativity.
- To date, a Nobel Prize has never been awarded for relativity. - Prize were given indirectly for relativity in 1902, 1921, 1933, 1993. Plus the QFT prizes already listed: 1965,1967,1968,1972,1979,1980,1982,1984,1988,1990,1995,1999,2004,2008
- Louis Essen, the man credited with determining the speed of light, wrote many fiery papers against it such as The Special Theory of Relativity: A Critical Analysis. - He is a kook.
- Relativity also gravely conflicts with quantum mechanics, and although theories like string theory and quantum field theory have attempted to unify relativity and quantum mechanics, neither has been entirely successful or proven. - No, there is no known conflict. RSchlafly 15:56, 16 October 2009 (EDT)
- That's quite a rant, ranging from calling someone a "kook" to insisting that everyone accepts something. See how your claims contradict each other?
- The bottom line is this: stop wasting taxpayer money on this stuff. If you believe it so much, then donate your own money. But the grand sum of money donated by relativists to something they claim is so great is this: $0. Enough said.--Andy Schlafly 17:15, 16 October 2009 (EDT)
- I did not say anything about money donated by relativists, about morality. Do you want to address something that I did say? RSchlafly 17:49, 16 October 2009 (EDT)
- Your objections are patently absurd. Taking your first objection, of course relativity relies entirely on sweeping assumptions, such as claiming that v can never, ever be faster than c and that there is no difference in frames of reference anywhere in the universe. No other area of physics relies so heavily on such far-fetched and unprovable assumptions.--Andy Schlafly 18:15, 16 October 2009 (EDT)
- That is like complaining that Newtonian physics assumes that energy is conserved. The statement about was observed by Michelson-Morley and others. If you want to call it an assumption, then it was also assumed by Newton in 1687 []. Every other theory of science also has similar assumptions, if you want to call these assumptions. Relativity is no different. RSchlafly 18:38, 16 October 2009 (EDT)
- I looked at your reference and found nothing relevant to this discussion, and you quoted nothing. In sum, relativity has yielded nothing productive, and neither is this discussion. Every minute spent on discussing relativity is a wasted minute, and every dollar spent is a wasted dollar. Relativity is based entirely on sweeping and implausible assumptions unlike any other theory of physics. Suit yourself if you like relativity, but you're wasting your time and please don't waste any more taxpayer dollars on it.--Andy Schlafly 00:01, 17 October 2009 (EDT)
- You complain that relativity is different from Newtonian physics, and then you fail to see the relevance of what Newton said about the principle of relativity. I give up. The CP relativity article is filled with errors. RSchlafly 00:27, 17 October 2009 (EDT)
Some clarifications I hope will be helpful
I signed up for a Conservapedia account after reading this article and talk page, and particularly the back-and-forth between Aschlafly and Rschlafly. I saw what appeared to me to be some points of confusion and miscommunication, and I thought I might be able to help clear them up.
First, on the GPS question, I think I see what Aschlafly is saying about clocks. I think he means that Newtonian dynamics predicts no change in time from one reference frame to another, but rather that the forces on an orbiting satellite may affect a clock on board that satellite, just like bumping a record player can cause it to skip.
This is a very astute observation, particularly given the minuteness of the observed desynchronization. The trouble is, it can't possibly be correct under Newtonian dynamics. The equivalence principle — the most basic Galilean one — says that a freely falling reference frame is indistinguishable from a reference frame which is not accelerating. So there are no forces acting on a clock in an orbiting satellite. (This is an approximation, obviously; tidal forces are at work inside an orbiting satellite. But on that scale, tidal forces are far too minute to have any measurable effect, much less an effect on the scale that's been observed.)
Now, maybe there's some as-yet-unknown force acting on the particular type of clock in a GPS satellite, causing it to desynchronize from ground-based clocks. A magnetic force, maybe, since those clocks are solid-state. We can easily imagine such a force, and define it in a way that matches the observations, just like Newton imagined a "gravitational force" that caused objects to fall in the way he observed. But physicists are (I think understandably) reluctant to do that, since the predictions of general and special relativity combined match the observed effects to the limit of our ability to measure.
It's not accurate at all to say that the desynchronization of GPS clocks proves either theory of relativity. What is accurate is that the two theories of relativity predict that orbiting clocks will differ from ground-based clocks in certain ways (slightly faster by a factor X because they're at a higher altitude, slightly slower by a separate factor Y because they're in motion) and that the observed behavior exactly matches the sum of the two predictions, to the limit of our ability to measure. GPS clocks don't prove relativity, but they also don't contradict it.
It's also more than a bit misleading to say that "relativity has yielded nothing productive," since we wouldn't have PET scans without it for one example. But I'm a theoretician, not an engineer, so I can't contribute too much on that front. I'm also unsure whether you'd consider something like astronomical redshift or gravitational lensing (allowing us to better observe the universe) to be "productive" or not.
I'm generally confused by what you're referring to when you say "sweeping and implausible assumptions." Maybe you're confusing assumptions with predictions. In special and general relativity combined there are only three postulates — things that are assumed to be true by the theory: that the laws of physics are fundamentally the same no matter where you are or how you're moving, that the speed of light in a vacuum is the same to all observers, and that spacetime is everywhere (mathematically) continuous and differentiable.
The third postulate boils down, in layman's terms, to "We assume that mathematics works in the real world." It's admittedly unfounded, but it's also a fundamental assumption of every other theory in physics as well. The second postulate started out as a bit of an assumption, but all experiments conducted to date have produced observations that are consistent with it. And the first postulate is another one of those fundamental assumptions of physics, that the basic laws of physics don't just change arbitrarily from place to place or from observer to observer. Only three assumptions, and none of them are either sweeping or implausible.
Also, I think there's a bit of a misunderstanding (okay, a big, huge, giant misunderstanding) about what E=mc2 means. That's okay, because most people who know what the letters in that equation stand for misunderstand what the equation means. That equation is nothing more than a unit conversion factor. You can convert from feet to inches by multiplying by a constant, twelve. If we define k to be 12, to keep from having to write the number down, then we could say I=kf, or inches equals feet times a constant. The mass-energy equation is just like that, a conversion factor for talking about energy (joules) in mass units (kilograms), or vice versa, just as we can talk about length in either feet or inches by applying a conversion factor. That's all it is. It doesn't say anything about the universe.
If you want to take issue with the mass-energy relation, you should turn your attention to the stress-energy tensor Tμν in the Einstein field equations. That's where the prediction is made that mass and energy are related on a fundamental level. If you want to argue that point, argue it there, not in the unit conversion equation, which doesn't say what you seem to think it says.
Finally (and I'm only stopping here because I don't want to be ridiculously verbose), it's not exactly correct to say that relativity "[claims] that v can never, ever be faster than c." That's sort of true, if you squint, but it's not exactly right. What special relativity predicts — not claims — is that if you start with any object the speed of which is less than the speed of light — say, me, sitting here — and you accelerate that object, then its velocity as measured in any reference frame will never reach the speed of light, no matter how hard you accelerate it nor for how long. That's a more accurate way to describe the prediction. In fact, from a purely abstract mathematical standpoint, the equations of special relativity kind of say the opposite of what you said. Because it's an equally valid mathematical solution to say that objects can exist which move faster than the speed of light, but that when they are negatively accelerated (i.e., decelerated) their speed will never be so slow as the speed of light. These types of masses are called "tachyons."
Of course, there are some serious mathematical problems with tachyons as a solution to the equations of special relativity. It's true that the math works, but it's also true to say that if I have three apples and you take away five I have negative-two apples. A mathematically correct statement, but one that doesn't have meaning in the real world, since you can't physically take away more than I have; "negative-two apples" doesn't have a real-world meaning, and tachyons might also not have a real-world meaning. Special relativity doesn't say they do exist, or that they must exist, merely that may exist without contradicting the theory.
I do apologize for writing at such length, but reading the exchange between Aschlafly and Rschlafly made me deeply sad. You two argued with such vehemence over points of misunderstanding that are really very simple. The coincidence in your names, and the possibility that you might be kin, just made it all the more sad to me. Perhaps it makes me a busybody, but seeing two people in conflict over such a trivial set of misunderstandings made me want to help. I hope you take my comments in that spirit. --KSorenson 13:00, 11 November 2009 (EST)
- More to the point, the article falsely states that relativity assumes you can't exceed c, and thus that relativity is based on untestable assumptions. This is wrong. The speed limit may be a consequence of the theory, but it is not an assumption of the theory. The assumption is that light speed is the same in all reference frames, an assumption that can be and has been tested. Of course it can never be fully tested, but neither can simple motion formulas be tested at all velocities. Thus this criticism of relativity is based on false premises.
- As for the complexity of relativity, this isn't true for special relativity; that much can be derived with just a little bit of linear algebra. And so what if Eddington claimed to be one of the few people who understood it? Is he a source of infallible truth? Are we supposed to fill this encyclopedia with facts, or with stuff people say?
- This encyclopedia is supposed to be guided by conservative principles, including the telling of objective Truth even if the Truth is politically incorrect or offensive to sensitive ears. In this article we are seeing the complete derailing of that fundamental principle. The article barely even describes its own subject and devotes as much space to attacking it with numerous disparaging falsehoods; all because the fact of relativity is offensive to somebody's political sensibilities and/or personal hangups. --NgSmith 13:41, 11 November 2009 (EST)
- There's much verbosity in the above two posts, and I'll gradually try to weed through it. Let me start by saying the obvious: the Lorenzian transformation at the heart of special relativity certainly DOES assume that "v" cannot exceed "c". The equation blows up if that assumption is violated.
- Now that I've addressed one of your points, how about addressing mine: relativity has absurd physical discontinuities, as explained in the entry.--Andy Schlafly
- It's sometimes tricky to say what exactly are the "assumptions" in a theory, but I thnik I agree with NgSmith on this point. One can derive the Lorentz transformations by assuming that the speed of light is the same in all reference frames. Einstein himself wrote a neat short piece "Simple Derivation of the Lorentz Transformation" that does this, even if it's not entirely rigorous. It's available online and quite lives up to its name. Others have done a more careful job of deriving the transformations. You're right that the Lorentz transformations do show we can't go above c, but I think it's more accurate to view this as a consequence of the assumption (c constant in all frames) underlying Lorentz, rather than viewing the Lorentz transformations themselves as the assumption. But I understand this is all up to debate and really comes down to how we want to formalize the theory. --MarkGall 15:40, 11 November 2009 (EST)
- Regarding the complexity of relativity, yes. Relativity is mathematically complex. While it's true that a lot of special relativity can be handled with basic algebra, the geometric interpretation depends on a good understanding of hyperbolic trigonometry, which is reasonably advanced math. General relativity, of course, is based on differential geometry and tensor calculus, which are highly advanced subjects in math. They are mathematically challenging theories, no question.
- I'm not sure that's a good criticism, though. I'm open to the possibility that I'm wrong, of course, but the mere fact that there's a lot of math doesn't seem to be a strong leg to stand on. Math, after all, can be learned by anyone with patience.
- (Just like posts with "much verbosity" can be read and understood by anyone with patience, but that's getting off the subject.)
- On the topic of assumptions, I'm not sure what else to say that I didn't say above. Special relativity does not assume that v cannot equal or exceed c. It assumes that the measured speed of light in a vacuum is the same in all reference frames. It then goes on to predict that under acceleration v cannot reach c. I agree, that alone would be a very difficult prediction to test. Fortunately, special relativity also predicts that proper time in a moving reference frame runs slower than proper time at rest, in proportion to v, and that prediction is not difficult to test. We accelerate particles with known half-lives to high fractions of c and then observe how long it takes them to decay. After enough such tests, the relationship between proper time in the moving frame and proper time at rest can be measured with a high degree of statistical precision. (This is known as the Rossi-Hall experiment, and was first done in 1940.)
- As for the other point about "absurd physical discontinuities" and the example given in the article — and believe me when I tell you I'm trying to say this as respectfully as I can — I'm afraid your math is simply flawed. The example given in the article is that if you take a massive particle, accelerate it to the limit c, and then also reduce its rest mass to the limit zero, you get a different momentum from that of a photon. At the risk of sounding pedantic, of course you do. Rest mass is not a variable in the equations of special relativity; it's not mathematically meaningful to take its value at a limit, because it's a constant. You could just as easily take the value of the gravitational constant G at the limit zero, but you wouldn't get physically meaningful results, because G does not vary. Saying that the equations break when you break the equations is, it seems to me, pretty tautological.--KSorenson 17:18, 11 November 2009 (EST)
- The Lorentz transformation at the heart of special relativity is not a starting assumption; it is a conclusion that is derived from the starting assumptions.
- The article criticizes relativity for using the untestable speed limit as an assumption, which would be unwarranted. Rather, relativity is based on a different assumption, that the speed of light is frame-invariant. That assumption is perfectly justified; it is simply a statement of what experimental data was already telling us. Indeed, relativity was borne out of an attempt to explain that experimental data.
- As for "absurd physical discontinuities," the supposed discontinuity listed in the article is the same for both relativity and Newtonian physics: the limit of mv as m goes to 0 and v goes to c is just 0, while the momentum of light is nonzero. But so what? A photon is not the limit of a shrinking mass, so this limit isn't supposed to equal the momentum of a photon. This is not a "discontinuity" in the laws of physics, simply a misleading mathematical argument. --NgSmith
Comments on Newtonian Mechanics
There are two aspects of Newtonian mechanics that are, I believe, misstated in this article.
One: several times the article claims that Newtonian mechanics predicts deflection of light by massive objects.
Newtonian physics did predict gravitational acceleration of light, back when light was thought to have mass, 200 years ago. But this "corpuscular" theory of light was abandoned long ago due to its false predictions, versus the growing evidence of light as a massless phenomenon. With massless light Newtonian mechanics does not predict any gravitational deflection at all.
It is misleading to represent that old theory, long since discredited, as "Newtonian mechanics," or to represent it as a present-day alternative to relativity. Newtonian mechanics does not model light as corpuscles, and does not claim that light is accelerated by gravity.
Two: the article makes fudge-factor statements like, "it is debatable how much deflection Newtonian mechanics should predict." No, it is not debatable at all: both Newtonian mechanics and relativity have well-defined, concrete laws that you can find in any physics textbook. There is no mystery or lingering uncertainty about what they say, and we know precisely what these laws predict about the path of a mass passing another mass.
It seems like the article is defending an incorrect prediction by arguing that the predicted value is still up for debate. But this is wrong; we know what the predicted value was, and should honestly accept that it does not match observation.--NgSmith
- Thanks for taking the time to find two specific areas for improvement here. This article was first on my list of those to improve — i.e., repair — when I signed up, but I've been working my way up to it because it's just so daunting. You've put the spotlight on a couple specific points, and that really helps.
- I'm in the middle of expanding general theory of relativity and won't finish it until tomorrow. Would you be interested in collaborating with me on this article? I think moving much of the detail of the special and general theories to their respective pages will help clear out some of the junk on this page. --KSorenson 18:43, 13 November 2009 (EST)
- I thought that there were people who predicted light deflection under Newtonian mechanics. Is that not true? Do you have any source for saying that people did not expect light deflection under Newtonian mechanics? RSchlafly 11:48, 15 November 2009 (EST)
- Absolutely. Johann Soldner, 1803, for one. I'm going to put that into the GR page. But probably not quite yet, there's a huge rewrite going on. I'm sure there were people who thought that the deflection under Newton should be zero, but they were just not thinking clearly. Any statement saying the expected deflection was zero should be taken out; not true. BTW, I think the detailed treatment of issues like this belongs in the GR page, and the R page should just link to it. PatrickD 12:01, 15 November 2009 (EST)
- The sequence of events basically goes like this:
- Light is like little cannonballs! (Pretty much everybody from the 11th c. forward.)
- Gravity is a constant force! (In India and Arabia, 9th c. or so, in Europe, Galileo, early 17th c.)
- Gravity varies with the square of the distance! (Newton, late 17th c.)
- There are stars so heavy that light cannonballs from them are dragged back down! (Laplace et al., 18th c.)
- Guys? Light's not cannonballs, it's vibration. So no on your gravity nonsense. (Various, late 17th c. through mid 19th c.)
- Okay, you guys are both right. It's cannonballs that vibrate. Kind of. (Einstein, early 20th c.)
- Oh, and gravity does so pull on it. So nyeh. (Einstein, early 20th c. but slightly later.)
- Basically the question of how light and gravity interact has been bounced back and forth like a ping-pong ball for the past thousand years. Only in the past century has a consistent model of light and gravitation emerged. Some discussion of this exists already here. --KSorenson 12:20, 15 November 2009 (EST)
- RSchlafly, there were indeed people a couple centuries back who predicted light deflection under Newtonian mechanics. But this was only because 200 years ago, light was thought to have mass.
- Newtonian mechanics only predicts the deflection of an object's path if the object has mass. Lose the mass and you lose the deflection. For that reason Newtonian mechanics has not predicted the deflection of light for a very long time. Surprisingly, the article already cites a source, citation no. 32, that says this in so many words.
- It is thus incorrect for the article to state that Newtonian mechanics predicts deflection (or that the deflection of a mass's path is "up for debate.") It seems to me that both of these claims are made in order to argue that relativity isn't necessary, in keeping with the article's apparent negative attitude toward its subject matter.--NgSmith