Episode 23 – Introduction to Modern Classical Mechanics

Posted by Steven Bryant On July - 18 - 2011

Modern Classical Mechanics is a new, intuitive, model that yields better than 100 times the accuracy of the Einstein-Lorentz equations in several experiments including Michelson-Morley and Ives-Stillwell!  Because it distinguishes between Length and Wavelength, its theoretical explanations avoid non-intuitive concepts like time dilation, length contraction, and the twin paradox; each of which are required by Relativity theory.

This is a video of a presentation delivered at the 18th annual NPA conference which was held in July, 2011, at the University of Maryland.  It is presented in four sections.

  • Part 1 – Recap of the Spherical Wave Proof analysis and introduction to the Hypercone failure
  • Part 2 – Introduction to Modern Classical Mechanics
  • Part 3 – Experimental Analysis to show the improved accuracy of Modern Classical Mechanics over Relativity theory.
  • Part 4 – Explanation behind why Relativity requires time dilation, length contraction and the twin paradox; and why these concepts are not required by a model that recognizes the importance of Wavelength.

Modern Classical Mechanics is a comprehensive model that supersedes the model of Complete and Incomplete Coordinate Systems.

[podcast format=”video”]http://www.relativitychallenge.com/media/RelativityChallenge.com-Episode23_iPod.m4v[/podcast]

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