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<blockquote data-quote="Phoenix" data-source="post: 7639" data-attributes="member: 10"><p><strong>new member</strong></p><p></p><p></p><p>Well actual Einstein's speed of light was a conditional, the speed of light in a vacume. Before Einstein, using Galelian transformations, it was possible to have relative speeds faster than the speed of light. Consider the scenario of two photo heading towards each other at the speed of light. In Galelian transformation the one photon would apear to the other photo to be approaching it at twice the speed of light. By the Lorentz transformations that Eintstein used the length between the two photon would contract in half and each would still be traveling light speed relative to each other even if relative to an outside observer the distance would make each one traveling at light speed.</p><p></p><p>The principle does not say there can not be speeds slower then the speed of light.</p><p></p><p>Even so Einstein's principle of light speed was kind of patchy and arbitrary. So let us extend it and try to consider if it indeed said something about light could not go slower then the speed of light.</p><p></p><p></p><p>Now approaching light speed is suppose to slow time down for the observer, so slowing light down speeds time up?</p><p></p><p>Let me see if I can get the equations and we can try to tweek them. The lorzents equation is pretty dull it doesn't really do anything until you are going alsmost light speed then all kinds of things happen.</p></blockquote><p></p>
[QUOTE="Phoenix, post: 7639, member: 10"] [b]new member[/b] Well actual Einstein's speed of light was a conditional, the speed of light in a vacume. Before Einstein, using Galelian transformations, it was possible to have relative speeds faster than the speed of light. Consider the scenario of two photo heading towards each other at the speed of light. In Galelian transformation the one photon would apear to the other photo to be approaching it at twice the speed of light. By the Lorentz transformations that Eintstein used the length between the two photon would contract in half and each would still be traveling light speed relative to each other even if relative to an outside observer the distance would make each one traveling at light speed. The principle does not say there can not be speeds slower then the speed of light. Even so Einstein's principle of light speed was kind of patchy and arbitrary. So let us extend it and try to consider if it indeed said something about light could not go slower then the speed of light. Now approaching light speed is suppose to slow time down for the observer, so slowing light down speeds time up? Let me see if I can get the equations and we can try to tweek them. The lorzents equation is pretty dull it doesn't really do anything until you are going alsmost light speed then all kinds of things happen. [/QUOTE]
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