Variable C explains Gravity?
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Variable C explains Gravity?
The following is a little over my head, but it's interesting. Can someone point out whatever errors the video may have and whether any of it is correct?
How Variable Speed of Light Explains Gravity
https://www.youtube.com/watch?v=aSEYzcbPi18
How Variable Speed of Light Explains Gravity
https://www.youtube.com/watch?v=aSEYzcbPi18
Lloyd- Posts : 161
Join date : 2022-04-12
Chromium6 likes this post
Re: Variable C explains Gravity?
Lloyd wrote:The following is a little over my head, but it's interesting. Can someone point out whatever errors the video may have and whether any of it is correct?
How Variable Speed of Light Explains Gravity
https://www.youtube.com/watch?v=aSEYzcbPi18
Hmm...never heard of this on Lloyd
Chromium6- Posts : 712
Join date : 2019-11-29
Re: Variable C explains Gravity?
.
Lloyd, It’s way above my head. For the sake of exercise, I’ll attempt a quick summary.
First, notice at the end of the video (22m 22s) , Alexander Unzicker is promoting his 2015 book, Einstein’s Lost Key: How We Overlooked the Best Idea of the Twentieth Century.
In 1911, before coming up with the General Theory of Relativity, Einstein considered a variable light speed (VSL) theory. I didn’t catch why Einstein abandoned the idea. In 1957, Robert Dicke expanded VSL theory, such as in providing a mathematical form for gravity in which the universe is represented by a 1 plus a sum of the local masses, similar to the form Miles described in his phi paper.
Unzicker knows the subject well and spends most his time describing how to understand and interpret the index of light math directly, and in derivative, gradient and Laplacian forms. All of which basically agree with observed data.
As Unzicker explains, the speed of light is lower in the presence of matter. All measurement scales must then also change near matter.
With respect to the charge field. As I understand it, large amounts of local matter must recycle light, which creates group effects that make it seem like light slows down, nevertheless the speed of light is always a constant. Observed gravitational data may be explained by Expansion theory, where all matter is constantly expanding, or perhaps by some form of charge pressure.
Yeah, Nay?
.
Lloyd, It’s way above my head. For the sake of exercise, I’ll attempt a quick summary.
First, notice at the end of the video (22m 22s) , Alexander Unzicker is promoting his 2015 book, Einstein’s Lost Key: How We Overlooked the Best Idea of the Twentieth Century.
In 1911, before coming up with the General Theory of Relativity, Einstein considered a variable light speed (VSL) theory. I didn’t catch why Einstein abandoned the idea. In 1957, Robert Dicke expanded VSL theory, such as in providing a mathematical form for gravity in which the universe is represented by a 1 plus a sum of the local masses, similar to the form Miles described in his phi paper.
Unzicker knows the subject well and spends most his time describing how to understand and interpret the index of light math directly, and in derivative, gradient and Laplacian forms. All of which basically agree with observed data.
As Unzicker explains, the speed of light is lower in the presence of matter. All measurement scales must then also change near matter.
With respect to the charge field. As I understand it, large amounts of local matter must recycle light, which creates group effects that make it seem like light slows down, nevertheless the speed of light is always a constant. Observed gravitational data may be explained by Expansion theory, where all matter is constantly expanding, or perhaps by some form of charge pressure.
Yeah, Nay?
.
LongtimeAirman- Admin
- Posts : 2015
Join date : 2014-08-10
Chromium6 likes this post
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