21. General Relativity - CreationWiki, The Encyclopedia Of Creation Science Retrieved from http//creationwiki.org/index.php/general_relativity . Category Physics. Views. Article; Discussion; View source; History. Personal tools http://creationwiki.org/index.php/General_relativity

General relativity From CreationWiki, the encyclopedia of creation science Jump to: navigation search Two-dimensional visualisation of space-time distortion. The presence of matter bends spacetime, this bending being interpreted as gravity. Einstein's theory of General Relativity is an extension of Special Relativity into the general case of non-inertial frames, the result is a theory of gravity that extends and corrects Newtonian gravitation. According to General relativity, gravity results from a space-time distortion caused by the presence of a mass. From an experimental and demonstration standpoint, this is mechanically and mathematically much like placing a weight on a rubber sheet, then observing the behavior of other objects rolled in a near-tangential path. General Relativity has to date passed every experimental test devised for it, making it one the best verified theories in Physics . Surprisingly it is has proven to be quite useful to Creation Science and it actually supports some aspects of Biblical teaching. For a detailed description of General Relativity see the article at Wikipedia General relativity and Creation Science One of the most verified aspects of General relativity is gravitational time dilation . Dr. Russell Humphreys shows in his White Hole Cosmology that gravitational time dilation can solve the problem of getting distant star light to Earth even though creation occurred less than 10,000 years ago. General relativity not only provides a solution to to the distant star light problem but can solve other

22. Problems In General Relativity Text - Physics Forums Library and in section 8.2 (http//en.wikipedia.org/wiki/general_relativity Einstein_gravity_is_nonrenormalizable) you ll find a box in the right margin. http://www.physicsforums.com/archive/index.php/t-210499.html

Physics Help and Math Help - Physics Forums Physics PDA View Full Version : Problems in General Relativity kurt.physics Is there any problems to be solved in general relativity? HallsofIvy !!!omg!!! CompuChip I found one for you: go to this page (http://en.wikipedia.org/wiki/General_relativity) and in section 8.2 (http://en.wikipedia.org/wiki/General_relativity#Einstein_gravity_is_nonrenormalizable) you'll find a box in the right margin. Fredrik I found one for you: go to this page (http://en.wikipedia.org/wiki/General_relativity) and in section 8.2 (http://en.wikipedia.org/wiki/General_relativity#Einstein_gravity_is_nonrenormalizable) you'll find a box in the right margin. Quantum gravity is not a problem in general relativity. pervect Is there any problems to be solved in general relativity? Yes, many. For instance, people are working on (and finally having some success) with how to apply numerical methods to get valid solutions for physical events like black hole mergers. Realistic gravitational collapse has a host of theoretical questions that need to be answered, especially rotating collapse. And there are still people interested in finding new exact analytical solutions to Einstein's field equations.

23. GENERAL RELATIVITY Albert Einstein. This is the English translation of a Web Page originally written in French, by Nymbus, who also provided the translation. http://www.gravitywarpdrive.com/General_Relativity.htm

This is the English translation of a Web Page originally written in French , by Nymbus , who also provided the translation. I have posted it here at my own Website, with some minor personal additional comments. The content has been left untouched. Any comments or questions should be addressed to nymbus@wanadoo.fr Minor editing, the Space-Time Compression description, and the Conclusions were provided by Ken Wright. Reference: http://www.svsu.edu/~slaven/gr/ NOTE: The above reference link appears to be no longer active. Before beginning this brief article, dealing with the essential features of General Relativity, we have to postulate one thing: Special Relativity is supposed to be true. Hence, General Relativity lies on Special Relativity. If the latter were proved to be false, the whole edifice would collapse. In order to understand General Relativity, we have to define how mass is defined in classical mechanics. The Two Different Manifestations of Mass: Many experiments have been done to measure the inertial and gravitational mass of the same object. All lead to the same conclusion: The inertial mass equals the gravitational mass. Aiming at this, he stated his third postulate, known as the principle of equivalence. It says that if a frame is uniformly accelerated relative to a Galilean one, then we can consider it to be at rest by introducing the presence of uniform gravitational field

24. General Relativity - Simple English Wikipedia, The Free Encyclopedia This short article can be made longer. You can help Wikipedia by adding to it. Retrieved from http//simple.wikipedia.org/wiki/general_relativity http://simple.wikipedia.org/wiki/General_relativity

General relativity From the Simple English Wikipedia, the free encyclopedia that anyone can change Jump to: navigation search General relativity is the physics of the very large. The earth is small, and our sun is far away, so anything an average person does can be described by the much simpler Newtonian physics . When you start dealing with things that are very large, like stars and galaxies , things start to move and interact differently. The science of how this works is called general relativity. General relativity is a theory of space and time created by Albert Einstein and published in . The central idea of general relativity is that space and time are two aspects of something called spacetime , which is curved in the presence of matter energy , and momentum , in a way that Einstein wrote down in the Einstein Field Equations In general relativity, freefall is inertial motion instead of being at rest on a massive body such as the Earth , as described by the equivalence principle General relativity has made many successful predictions. These include: The bending of light as it passes the Sun by twice the Newtonian value for an object traveling at the speed of light . This was confirmed by Eddington in , and the announcement forced scientists to take general relativity seriously.

25. General Relativity(­¶ 1) - ¾Ç³N¥æ¬y - ¿ß¿ß½×¾Â CatCatForum - Pow Translate this page list*url=http//en.wikibooks.org/w/index.php?title=general_relativity _Introduction action=editcolor= 0000ffIntroduction/color/url/listlist http://catcatforum.com/discuz/archiver/tid-804516.html

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26. General Relativity LinkedWords™ - Contextually Find And Manage Web Inf Added April 6, 2006, 233 am Found in page http//www.linkedwords. com/science/physics/physics-terms/mechanics-terms/physics/general_relativity.php http://www.linkedwords.com/science/physics/physics-terms/mechanics-terms/physics

March 31, 2008 general relativity Web Users Web Publishers About Help Path: Home science physics physics-terms ... physics general relativity Page Tools Clustered InsideWeb Language Contextual Path (URL): http://www.linkedwords.com/science/physics/physics-terms/mechanics-terms/physics/general_relativity.php Keyword LookUp: all keyword pages categories linked keyword pages only Choose Category Arts Brands Business Computers Games Health Home Local News / Media Recreation Reference Science Shopping Society Sports More Search Options: Search within this category only Search the web... Main Categories Arts Brands Business Computers ... Sports Page Tools: (RSS, Email, Print, etc..) Generate RSS Email to Friend / Colleague Printer Friendly Format Add to Favorites ... Make Home Page Change Language Default French German Spanish ... Help Us Translate Archives: Home July August September ... February general relativity This page contains listings contextually, grammatically and meaningfully related to the keyword/phrase '... general relativity ...'. If you have text in any page containing the keyword/phrase '...general relativity...'

27. General Relativity General Relativity . The general theory of relativity derives its origin from the need to extend the new space and time concepts of the special theory of http://abyss.uoregon.edu/~js/glossary/general_relativity.html

General Relativity The general theory of relativity derives its origin from the need to extend the new space and time concepts of the special theory of relativity from the domain of electric and magnetic phenomena to all of physics and, particularly, to the theory of gravitation. As space and time relations underlie all physical phenomena, it is conceptually intolerable to have to use mutually contradictory notions of space and time in dealing with different kinds of interactions, particularly in view of the fact that the same particles may interact with each other in several different wayselectromagnetically, gravitationally, and by way of so-called nuclear forces. Though the general theory of relativity is universally accepted as the most satisfactory basis of the gravitational force now known, it has not been completely fused with quantum mechanics, of which the central concept is that energy and angular momentum exist only in finite and discrete lumps, called quanta. Since the 1920s quantum mechanics has been the sole rationale of the forces that act between subatomic particles; gravitation doubtless is one of these forces, but its effects are unobservably small in comparison to electromagnetic and nuclear forces. Relativistic phenomena in the subatomic realm have been adequately dealt with by merging quantum mechanics with the special, not the general, theory. Many physicists, foremost among them Einstein himself, tried during the first half of the 20th century to enrich the geometric structure of space-time so as to encompass all known physical interactions. Their goal, a unified field theory, remained elusive but was brought nearer during the late 1960s by the successful unification of the electromagnetic and the so-called weak nuclear force.

28. General Relativity - Wikiversity Retrieved from http//en.wikiversity.org/wiki/general_relativity . Categories Stub pages General relativity Theoretical physics Physics http://en.wikiversity.org/wiki/General_relativity

General relativity From Wikiversity Jump to: navigation search Jimbobjames , but so far, little content has been added. Everyone is invited to help expand and create educational content for Wikiversity. If you need help learning how to add content, see the editing tutorial . For a MediaWiki syntax reference you can go here Click here for video lectures by Kip Thorne of Caltech on the mathematics of General Relativity. Contents Curved space-time Riemann coordinates The metric Riemann tensor ... edit Curved space-time Curvature of the four-dimensional space-time is the basis of general relativity. A curved space is difficult to conceive particularly the fourth dimension is peculiar. Einstein calls it t=x . It seems simpler to consider it as an imaginary number ict where i is the quadratic root of -1 and c the speed of light. Then the space-time has the following four dimensions: (x,y,z,w=ict). edit Riemann coordinates Understanding of general relativity, like restricted relativity, will be easier by using two dimensions (x, y=ict) instead of four. With this representation, we will have a riemannian instead of pseudo-riemannian space. Cartesian coordinates are the most common reference system. The Earth, being spherical, is not a flat space and the Pythagorean theorem is valid only locally. The cartesian frame changes its orientation from place to place but the law of gravity is the same in Paris or in Valparaiso. The Riemann coordinates are local cartesian coordinates. They are such that the Pythagorean theorem is valid even on a curved surface. It is not necessary to know the transformation from curved coordinates to use them. They are not always suitable, for example, it is necessary to compute the Riemann tensor in Gauss (e.g. spherical) coordinates in order to obtain the Schwarzschild metric.

29. CategoryGeneral Relativity CategoryGeneral relativity. Contents 1. Subcategories 1. 1. E 1. 2. F 1. 3. G 1. 4. L 1. 5. R 1. 6. T 2. Pages in category General relativity http://wapedia.mobi/en/Category:General_relativity

Category:General relativity 1. Pages in category "General relativity" There are pages in this section of this category. General relativity is the best known relativistic classical field theory of gravitation The main article for this category is General relativity Category: Relativity Physical cosmology Theories of gravitation Home ... Wapedia: For Wikipedia on mobile phones

30. General Relativity - English Dictionary english to english dictionary containing references. http://www.online-dictionary.biz/english/vocabulary/reference/general_relativity

var language=0; var from='english'; var to='english'; Online Dictionary Chinese to English English to Chinese ... French to English German to English to Japanese Italian to English Japanese to English to German Latin to English Russian to English ... Swedish to English If you can't find the translation you need, try our free translation General Relativity - English Dictionary 1. a generalization of special relativity to include gravity based on the principle of equivalence Related words relativity A B C ... Z All content on this website is property of LocalTranslation unless stated otherwise. document.getElementById("generationTime").innerHTML='('+(0.55)+' seconds)'; document.getElementById("generationTime").innerHTML='('+(0.55)+' seconds)';

31. General Relativity - Wikipedia General relativity. General Relativity is the common name for the theory of gravitation published by Albert Einstein in 1915. http://facetroughgemstones.com/wikipedia/ge/General_relativity.html

Office Supplies Buy Posters A-Z Products Website Advertising ... General relativity General Relativity is the common name for the theory of gravitation published by Albert Einstein in . According to general relativity the force of gravity is a manifestation of the local geometry of spacetime . Although the modern theory is due to Einstein, its origins go back to the axioms of Euclidean geometry and the many attempts over the centuries to prove Euclid 's fifth postulate, that parallel lines remain always equidistant, culminating with the realisation by Bolyai and Gauss that this axiom need not be true. The general mathematics of non-Euclidean geometries was developed by Gauss' student, Riemann , but these were thought to be wholly inapplicable to the real world until Einstein had developed his theory of relativity. The special theory of relativity (1905) modified the equations used in comparing the measurements made by differently moving bodies, in view of the constant value of the speed of light: this had the consequence that physics could no longer treat space and time separately, but only as a single four-dimensional system, "space-time," which was divided into "time-like" and "space-like" directions differently depending on the observer's motion. The general theory added to this that the presence of matter "warped" the local space-time environment, so that apparently "straight" lines through space and time have the properties we think of "curved" lines as having. On May 29 observations by Arthur Eddington of shifted star positions during a

32. Details For MacTutor History Of Mathematics: General Relativity This is part of the extensive MacTutor History of Mathematics Archive. http//wwwgroups.dcs.st-and.ac.uk/~history/HistTopics/general_relativity.html http://www.compadre.org/astronomy/items/detail.cfm?ID=5146

33. Remarks On General Relativity Remarks on General Relativity. Michael Fowler University of Virginia. Physics 252 Home Page Link to Previous Lecture. In Einstein s little book Relativity http://theory.asu.ru/~raikin/Students/Books/Unsorted/Kolchuzhkin/Content/252/gen

Remarks on General Relativity Michael Fowler University of Virginia Physics 252 Home Page Link to Previous Lecture In Einstein's little book Relativity: the Special and the General Theory , he introduces general relativity with a parable. He imagines going into deep space, far away from gravitational fields, where any body moving at steady speed in a straight line will continue in that state for a very long time. He imagines building a space station out there - in his words, "a spacious chest resembling a room with an observer inside who is equipped with apparatus." Einstein points out that there will be no gravity, the observer will tend to float around inside the room. But now a rope is attached to a hook in the middle of the lid of this "chest" and an unspecified "being" pulls on the rope with a constant force. The chest and its contents, including the observer, accelerate "upwards" at a constant rate. How does all this look to the man in the room? He finds himself moving towards what is now the "floor" and needs to use his leg muscles to stand. If he releases anything, it accelerates towards the floor, and in fact all bodies accelerate at the same rate. If he were a normal human being, he would assume the room to be in a gravitational field, and might wonder why the room itself didn't fall. Just then he would discover the hook and rope, and conclude that the room was suspended by the rope. Einstein asks: should we just smile at this misguided soul? His answer is no - the observer in the chest's point of view is just as valid as an outsider's. In other words

34. General_relativity's Xanga Site Translate this page general_relativity weblog - photos - videos - audio - pulse - profile - reviews Subscribe to general_relativity Get trial subscription. lammonica http://www.xanga.com/General_relativity

var adSty = [["FFFFFF","FFFFFF","8787B7","7A7A7A","ADADAD"],["FFFFFF","FFFFFF","8787B7","7A7A7A","ADADAD"],["FFFFFF","FFFFFF","8787B7","7A7A7A","ADADAD"]]; var availW = [0,200,0]; The place of gathering and friendship A place to breath weblog photos videos audio ... sign my guestbook Name: LapKei (Kenny) Birthday: Interests: Networking, Reading, Physics, Mathematics, Piano, Basketball, Badminton, Programming, Electronics, Gospel, $$$$ Message: message me MSN: lapkei04@hotmail.com ICQ: Member Since: Subscriptions Sites I Read Subscribe to General_relativity Get trial subscription lammonica chiutuet ... ceciyiu Blogrings BYUH HK_Club previous random next ... next Posting Calendar Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec view all weblog archives Get Involved! Suggest a link Recommend to friend Create a site Sunday, November 11, 2007 It has been 3 months since I updated my Xanga. How amazing that once I touched "Facebook", then I forgot about Xanga. (I wonder if there are any people still reading Xanga, especially mine..) Life has been really busy, but happy. I enjoy my work, especially to get to know different people in the same industry. A bad thing about this is that I just can't do anything else, as my schedule is very tight every single day.

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Welcome to Jeteye! Email or Alias Password Remember Me Forgot password? Submit Login What is Jeteye? Make a Jetpak! Search Jetpaks: Go! Not A Member Yet? COSMOLOGY AND PHYSICS by lawsherm@gmail.com Learn More » Popular Tags 217 Jetpaks are tagged with art 179 Jetpaks are tagged with blog 135 Jetpaks are tagged with blogs 131 Jetpaks are tagged with bush 150 Jetpaks are tagged with computer 209 Jetpaks are tagged with cool 116 Jetpaks are tagged with css 224 Jetpaks are tagged with design 147 Jetpaks are tagged with firefox 124 Jetpaks are tagged with funny 243 Jetpaks are tagged with games 155 Jetpaks are tagged with images 141 Jetpaks are tagged with info 123 Jetpaks are tagged with information 174 Jetpaks are tagged with internet 165 Jetpaks are tagged with java 154 Jetpaks are tagged with jeteye 115 Jetpaks are tagged with links 183 Jetpaks are tagged with linux 146 Jetpaks are tagged with movies 498 Jetpaks are tagged with music 308 Jetpaks are tagged with news 126 Jetpaks are tagged with pictures 288 Jetpaks are tagged with politics 129 Jetpaks are tagged with programming 119 Jetpaks are tagged with science 224 Jetpaks are tagged with software 151 Jetpaks are tagged with technology 315 Jetpaks are tagged with test 132 Jetpaks are tagged with travel 121 Jetpaks are tagged with tutorials 118 Jetpaks are tagged with tv 247 Jetpaks are tagged with video 139 Jetpaks are tagged with videos 469 Jetpaks are tagged with web Jetpak Summary A Jetpak created on Sun, 09 Sep 2007 16:11:36 GMT

36. Graviton They aren t compatible with the smoothness of general_relativity. Further, even if such _Virtual_ particles did, ahem, exist, http://www.natscience.com/Uwe/Forum.aspx/physics/16420/graviton

Home Contact Us FAQ Link to Us ... Discussion Groups Biology Biology Botany Microbiology Entomology ... Paleontology Chemistry General Chemistry Analytical Chemistry Electrochemistry Organic Synthesis Earth Science Geology Mineralogy Oceanography Meteorology ... Earthquakes Physics General Physics Research Relativity Particle Physics ... April 2006 Tip: Looking for answers? Try searching our database. graviton Thread view: Tree View List View (postings sorted by date) Single Message View Enable EMail Alerts Start New Thread Thread rating: uweWriteArtHdr('','','',1) Michael Lodman - 30 Mar 2006 19:39 GMT If gravity is a force as electromegnetism, how does a graviton escape from an event horizon to attract other objects? Reply to this Message uweWriteArtHdr('#Xns97966C775981Fjlodmanbajamontana701693236','','#1143751262624735173860e56g2000cwegooglegroupscom',3) Spaceman - 30 Mar 2006 20:01 GMT The "graviton" does not exist. It is a figment of imagination only. Reply to this Message uweWriteArtHdr('#Xns97966C775981Fjlodmanbajamontana701693236','#vMGdnY_etep2t7HZnZ2dnUVZ_vqdnZ2dcomcastcom','#nnYWf865358x9689464attbi_s72',5) Eric Gisse - 30 Mar 2006 21:41 GMT Read the sci.physics FAQ.

37. General Relativity A Simplified Introduction to General Relativity. Before launching into general relativity, I thought I d review a few basic derivations in differential http://www.geocities.com/rnseitz/General_Relativity.htm

A Simplified Introduction to General Relativity Before launching into general relativity, I thought I'd review a few basic derivations in differential geometry. The simplest possible case of interest would probably be: s = x + y or, over small distances, ds = dx + dy As a review exercise, we could use the calculus of variations to derive the equation for the geodesic curve—i.e., the shortest distance between two points—through the Euclidean space defined by this Pythgorean theorem distance formula . (It better come out to be a straight line!) The distance to be minimized is: and the standard variational integral is: Then the standard, grind-the-crank Euler-Lagrange equations are: But inasmuch as f isn't an explicit function of either x or y, and which means that so that Evaluating f x and f y , and remembering that ds = f dx and What these equations are saying in their cumbersome way is that the line which minimizes the distance between any two points on a plane makes a constant angle with the horizontal and the vertical...that is, that it's a straight line. Well, okay, that checked out...like using a cannon to shoot a squirrel, but it worked. Now for something more ambitious, like the shortest distance between two points in space-time. The equation for the shortest distance between two points—the geodesic curve—becomes:

38. General Relativity - Wikipedia Retrieved from http//nostalgia.wikipedia.org/wiki/general_relativity . This page was last modified 0443, 15 January 2005. Content is available under GNU http://nostalgia.wikipedia.org/wiki/General_relativity

General relativity From Wikipedia HomePage Recent changes View source Page history ... Log in Special pages Double redirects Broken redirects Disambiguation pages Log in Preferences My watchlist Recent changes Upload file File list Gallery of new files User list Statistics Random page Orphaned pages Uncategorized pages Uncategorized categories Uncategorized files Uncategorized templates Unused categories Unused files Wanted pages Wanted categories Most linked to pages Most linked to categories Most linked-to templates Pages with the most categories Most linked to files Pages with the most revisions Pages with the fewest revisions Short pages Long pages New pages Oldest pages Dead-end pages Protected pages Protected titles All pages Prefix index List of blocked IP addresses and usernames User contributions What links here Book sources Categories Export pages Version System messages Logs MIME search Search for duplicate files List redirects Unused templates Random redirect Pages without language links File path Search List of Wikimedia wikis Expand templates CategoryTree Gadgets Parser diff test Cross-namespace links Wikimedia Board of Trustees election Search web links Printable version General Relativity is the common name for the theory of gravitation published by Albert Einstein in . According to general relativity the force of gravity is a manifestation of the geometry of spacetime . Although the modern theory is due to Einstein, its origins go back to the

39. Bob LAZAR - Cetin BAL - GSM:+90  05366063183 - Turkey/Denizli This “SpaceTime Compression http//www.gravitywarpdrive.com/general_relativity.htm ” effect takes place between the nucleus and the electron cloud, http://www.zamandayolculuk.com/cetinbal/boblazararea51.htm

Time Travel Research Center Cetin BAL - GSM:+90 05366063183 - Turkey/Denizli G OVERNMENT S CIENTIST G OES P UBLIC Former Department of Naval Intelligence Scientist Discusses Our Government's Most Highly Classified Subject Considerable Evidence Supporting His Claims E vidence supporting his claims is considerable. In addition to his claiming Naval Intelligence work at S4 ( 15 miles southwest of Area 51 Bob Lazar A respected, no-nonsense reporter, Knapp has a master’s degree in communications and has won AP and UPI awards for his quality UFO journalism. He accepts Lazar’s story because too much of it checks out. In 1989, Lazar passed a lie-detector test arranged by Knapp. At MUFON’s 1992 Midwest Conference in Springfield, Missouri, Knapp presented further strong evidence of Lazar’s credibility. Lazar had mentioned that a man by the name of Mike Thigpen had visited his house and interviewed him in connection with his S4 employment. Kristen Merck and Mrs. Wayne Higdon, two witnesses who happened to be at Lazar’s house, confirmed Thigpen’s visit. Knapp rhetorically asks, “How did Bob Lazar know the name Mike Thigpen?” Also hard to explain away is the unusual response the State of Nevada received when it requested documents about Lazar from the federal government. The reply said that information on Bob Lazar was on a need-to-know basis, and you don’t need to know. This kind of reply is consistent with Lazar’s having had a high security clearance.

40. General Relativity - String Theory Wiki A Guide to Relativity Books. Retrieved from http//www.stringwiki. org/wiki/general_relativity . Views. Article Discussion Edit History http://www.stringwiki.org/wiki/General_Relativity

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