[Physics] Cubic Atomic Model + Theory

mikelawr at freenetname.co.uk mikelawr at freenetname.co.uk
Sat May 9 15:02:20 CEST 2020 

Tom

I thought I did answer your question. The mass and charge forces between 
meons in the two opposite loops of a photon are along their direction of 
travel. The size of each is

MM



On 2020-05-09 12:14, Tom Hollings wrote:
> Mike, regarding your answer to Arend. The real world can always be
> expressed by maths, but maths does not always express the real world.
> The maths may work out correctly, but have no correspondence in
> reality. Instead of doing the maths and then saying "this is possible,
> let's look for it", look for something (or find it by accident), and
> then do the maths to explain it. That sentence is simplified of
> course.
> Back to my posting. Instead of answering using SRT as I asked (and GRT
> if you think it is needed), you started talking about photons and
> meons and loops chasing each other. Just answer the question, or tell
> me where I am wrong. As I said in my previous post, yes, friction will
> act on a body, but when that body carries a source of power ie a
> reaction motor, that friction can be overcome. You will find reference
> to particles in space here : -
> http://problemswithrelativity.com/#constancy
> Tom.
> 
> 
> 
> 
>> On 08 May 2020 at 15:17 mikelawr at freenetname.co.uk wrote:
>> 
>> 
>> 
>> Tom,
>> 
>> You noticed my attempt to simplify!! What I didn't mention in my
>> explanation was that, in a photon, as well as each meon in the loop
>> chasing the next one to it, it also chases its opposite number in the
>> other loop. For a single loop, there is only the one set of net 
>> circular
>> forces from one meon to the next. It is the action of each meon in one
>> loop chasing its opposite in the other loop that drives the total
>> two-loop photon up to the maximum speed it can manage in the local
>> environment against the friction produced by the viscosity of that 
>> local
>> environment. Where the photon is in 'empty' space, there is still the
>> background to travel through, so it loses energy as it moves, a red
>> shift. When near a star, there is more viscosity so it has to work
>> harder against more friction and its maximum speed will still be c, 
>> but
>> the numerical value may be near zero - especially when trying to 
>> escape
>> from a black hole.
>> 
>> Apologies for eliding over that...
>> 
>> Cheers
>> Mike

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