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| Special Relativity |  By moving light two directions simultaneous it shows special relativity to be profoundly wrong. Einstein once said with a thought experiment that "If we see a clock race through space towards us at the velocity of light, time will shrink." But by changing the position where light originates - moving it equally and proportionately to its opposite number, we see time must always stand still, or simply be considered as not existing at all.
Unlike where Albert Einstein suggested time shrinks, my theory opens up more and by viewing the two clocks in the diagram underneath, I say, if a clock raced through space at the velocity of light, yet the hands of the clock turn equally and proportionately backwards to its forwards motion, time will always stand still. Notice the arrows at the side of each clock point in opposite directions - and then look at the time of each clock. You'll see time remains the same for both clocks!
However, any new piece of postulation will only ever be as good as the prediction which comes with it. Therefore, to show the true validity of this new theory, I decided to lock in a prediction so the scientific community might measure what I say and not simply take my word for it.
I understood, that if the volume of mass alters the point of force then any fluctuation of mass in a solar system to ours must unequivocally prove this. Initially I was stumped on how to produce such a unique opportunity to forensically examine my idea, then a thought struck me.
I figured, if an eclipse took place in another, distant solar system, then the star would either produce a higher, or lower volume of mass depending of course whether it was a solar or lunar eclipse. What I said was this:
If a solar eclipse happens in another solar system, the star will condense slightly and produce a higher level of mass, thus, the point of light we see in the night sky as a star will lift to a higher location. When the eclipse transpires, the star will return to its original position. Therefore, I termed this cosmological event: The rise and fall of starlight on a secondary equation to a Doppler, bearing in mind initial measurments will already be calculated. Although it should be remembered, a lunar eclipse will produce the alternative effect: The fall and rise of starlight on a secondary equation to a Doppler.
Below, we see how this works. Our observer standing on planet earth looks at the night sky and sees the starlight lift as a solar eclipse takes place in a distant solar system. Watch how he observes the starlight pass through points, A, B, and C. Natural as the event culminates, the starlight will fall back to its previous location. It will drop through C, B, and A.
Unfortunately I have taken this piece of highly original postulation as far as I can take it. It's now up to science to measure the prediction and either validate or dismiss, as the case may be, the real validity of this work. If you wish to comment, or read more about this, or explore the several other ideas which arise from this outstanding work, why not use the links and follow your curiosity into a whole new world of originality and self-exploration.
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