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Post by Pincho Paxton on Jul 16, 2021 11:03:53 GMT
Simple Measurements can be completely wrong
So you drop a ball from a building, and you time how long it takes to reach the ground, and you come up with a formula, and you call it Gravity. How hard can it be?
Well the measurement is not relevant to gravity at all... gravity does not make things fall towards the ground!!!
The ball moving towards the ground is not falling, it is being rebuilt like an animation, one frame at a time.
Gravity actually draws particles by spinning inside holes, and as it moves from hole to hole you see a ball falling towards the ground in an animation.
Now when you do your maths of the ball falling down you should also be including the energy that it would take to rebuild the ball from scratch. That's a completely different formula... instead of gravity being a weak force it is actually the ultimate force in nature.
So how wrong can a measurement be?
Completely wrong!
Pincho Paxton
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Post by Pincho Paxton on Oct 20, 2021 9:57:30 GMT
Another measurement that is incorrect... How general relativity warps time across a millimetreAll you are doing is imagining the physics from the maths, and measuring what you are imagining. But the maths uses mass instead of negative mass so your imagination is not measuring what it thinks it is measuring. Einstein gets all of the credit for being accurate, but that accuracy was in your imagination too. Newton never tested that mass attracts more mass that was in his imagination too. In fact no scientist ever worked out the mechanics for mass in the first place... It is a spin delay. It is harder to move something held up in a spin delay, and threaded by gravity. You have a whole stream of interconnected mistakes. Pincho Paxton
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