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-- Beland 07:27, 22 April 2007 (UTC)
COME ON PEOPLE!! Wikipedia is not supposed to be a textbook, it's supposed to be a place where people share knowledge and internet users can come to research and understand. I'm getting tired of the jargon and undefined terms used in complex articles; use an example (or if need be, an analogy) and help people understand what's happening. I want to be able to comprehend what I'm reading without needing a degree in theoretical- or astro-physics, for Christ's sake. There are 50 other sites I could visit if I wanted to hear it from a textbook-author's point of view. But I want to UNDERSTAND it! 97% of internet users wouldn't know what the hell to make of this article, so you're not helping anyone.
Yes, I'd like to see some discussion of the magnitude of the effect, preferably in terms I could relate to everyday life.
Currently the article says that the Geodetic effect is "the effect on rotating objects... etc," but what is this effect? There should be an actually sentence that says what its effect is. —Preceding unsigned comment added by 134.173.56.215 ( talk) 15:02, 5 March 2009 (UTC)
The derivation was short on interpretation and justification. I added some physical interpretation after the fact, but it's quite possible that some of my interpretation is wrong, and needs to be corrected. There's quite a big gap in the reasoning at the point where it refers to canonical form. The wikilink is just to a very generic article on canonical forms throughout all of mathematics.-- 207.233.88.250 ( talk) 22:08, 1 October 2009 (UTC)
Real rigid bodies do not move on geodesics. Only idealized test particles and spheres of uniform density move on geodesics. The center of mass of a non-spherical or non-uniform rigid body is, in general, accelerated with respect to it's instantaneously co-moving inertial frame.
The decomposition of the effect into a Thomas precession and an effect due to spatial curvature is controversial. I've moved it out of the lead and provided a reference to MTW for the opposite point of view. As far as I know, Rindler is idiosyncratic in describing the breakdown into the two parts in this way. Both MTW and Rindler are reliable sources (standard textbooks written by very well known relativists), so I don't think WP can really make a call one way or the other, unless maybe someone can demonstrate that there is far more weight of expert opinion on one side than the other. Personally I think MTW are right and Rindler's point of view is goofy and unnatural, for the reasons given here: http://www.lightandmatter.com/html_books/genrel/ch06/ch06.html#Section6.2 (see text at "One will see apparently contradictory statements in the literature...").-- 75.83.69.196 ( talk) 16:23, 20 March 2011 (UTC)
Maybe this helps: http://www.universetoday.com/85401/gravity-probe-b-confirms-two-of-einsteins-space-time-theories/ -- Irbian ( talk) 20:42, 5 May 2011 (UTC)
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![]() | This article is rated C-class on Wikipedia's
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-- Beland 07:27, 22 April 2007 (UTC)
COME ON PEOPLE!! Wikipedia is not supposed to be a textbook, it's supposed to be a place where people share knowledge and internet users can come to research and understand. I'm getting tired of the jargon and undefined terms used in complex articles; use an example (or if need be, an analogy) and help people understand what's happening. I want to be able to comprehend what I'm reading without needing a degree in theoretical- or astro-physics, for Christ's sake. There are 50 other sites I could visit if I wanted to hear it from a textbook-author's point of view. But I want to UNDERSTAND it! 97% of internet users wouldn't know what the hell to make of this article, so you're not helping anyone.
Yes, I'd like to see some discussion of the magnitude of the effect, preferably in terms I could relate to everyday life.
Currently the article says that the Geodetic effect is "the effect on rotating objects... etc," but what is this effect? There should be an actually sentence that says what its effect is. —Preceding unsigned comment added by 134.173.56.215 ( talk) 15:02, 5 March 2009 (UTC)
The derivation was short on interpretation and justification. I added some physical interpretation after the fact, but it's quite possible that some of my interpretation is wrong, and needs to be corrected. There's quite a big gap in the reasoning at the point where it refers to canonical form. The wikilink is just to a very generic article on canonical forms throughout all of mathematics.-- 207.233.88.250 ( talk) 22:08, 1 October 2009 (UTC)
Real rigid bodies do not move on geodesics. Only idealized test particles and spheres of uniform density move on geodesics. The center of mass of a non-spherical or non-uniform rigid body is, in general, accelerated with respect to it's instantaneously co-moving inertial frame.
The decomposition of the effect into a Thomas precession and an effect due to spatial curvature is controversial. I've moved it out of the lead and provided a reference to MTW for the opposite point of view. As far as I know, Rindler is idiosyncratic in describing the breakdown into the two parts in this way. Both MTW and Rindler are reliable sources (standard textbooks written by very well known relativists), so I don't think WP can really make a call one way or the other, unless maybe someone can demonstrate that there is far more weight of expert opinion on one side than the other. Personally I think MTW are right and Rindler's point of view is goofy and unnatural, for the reasons given here: http://www.lightandmatter.com/html_books/genrel/ch06/ch06.html#Section6.2 (see text at "One will see apparently contradictory statements in the literature...").-- 75.83.69.196 ( talk) 16:23, 20 March 2011 (UTC)
Maybe this helps: http://www.universetoday.com/85401/gravity-probe-b-confirms-two-of-einsteins-space-time-theories/ -- Irbian ( talk) 20:42, 5 May 2011 (UTC)
Hello fellow Wikipedians,
I have just modified one external link on Geodetic effect. Please take a moment to review my edit. If you have any questions, or need the bot to ignore the links, or the page altogether, please visit this simple FaQ for additional information. I made the following changes:
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Cheers.— InternetArchiveBot ( Report bug) 08:12, 21 July 2016 (UTC)