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Post by Pincho Paxton on May 13, 2016 7:43:56 GMT
I figured out where the weight of two falling objects can be contained into one speed. It has to do with a conversion of linear movement into spin, and that creates weight.
The example that I suggest is the wobble of a gyroscope, which is gravity in the Y axis converting into spin in the X/Z axis, and as this spin propagation slows down the wobble becomes faster. If you hold the gyroscope between your fingers with some sort of brass holder you can feel the weight of the conversion process by attempting to move the gyroscope from left to right. As the spin slows down, the wobble increases, and the weight of left to right movement decreases.
So now we pick up a lead ball, and a rubber ball, and we use the same physics again. The lead ball has all of these faster spins going on compared to the rubber ball, and the spins are maintained by the flow of gravity in the Y axis. The wobble of the rubber ball is increased compared to the lead ball, and the wobble from left to right eliminates some downwards movement for weight. So Y becomes X/Z as weight is decreased, and that cancels out the fall speed.
Pincho Paxton
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