Episode 18 (Video) Part 2 Comparative Analysis of Moving Systems Models
b'In Episode 18, I present Part 2 of a 2 part presentation delivered at the AAAS/NPA Conference held in April 2008 at the University of New Mexico. \\xa0This presentation compares and contrasts the models presented by Michelson-Morley, Lorentz, Einstein, and myself \\u2013 clearly outlining the key assumptions behind each model. \\xa0In addition, I summarize the finding that in two experiments \\u2013 Ives-Stillwell and Michelson-Morley \\u2013 that the Model of Complete and Incomplete Coordinate Systems yields greater accuracy than their Special Relativity-based equivalents.\\xa0The following specific points are covered in this presentation.\\xa0\\n\\nIdentify the assumptions that make up each of the key Moving System Model\\nExplanation of why the original Michelson-Morley Experiment does not support Fresnel\\u2019s (Aether-based) or Einstein\\u2019s (non Aether-based) theory\\nExplanation of why the revised Michelson-Morley\\xa0Analysis supports Fresnel and the Model of Complete and Incomplete Coordinate Systems\\nShow that the equations associated with the Model of Complete and Incomplete Coordinate\\xa0Systems produces better predictions than the Special Relativity-based equations for the Ives-Stillwell Atomic Clock experiment\\n\\nIn addition to the video, a presentation and the accompanying Comparison Chart are included in PDF form. \\xa0Corrections have been made within the video as call-outs.\\xa0\\nhttp://www.relativitychallenge.com/media/RelativityChallenge.com-Episode18_iPod.m4vDownload Podcast | Open Player in New Window\\nDownload in Windows Media Player Format\\nDownload Presentation in PDF Format\\nDownload Comparison Chart in PDF Format'