Post by Pincho Paxton on Dec 12, 2018 13:36:38 GMT
Link...
Calibrating cosmic mile markers
Pincho says...
Constants require physics that cancel out 1D propagation, which are that an Inflow is countered by an out-flow. In this case we are talking about gravity as an in-flow, and magnetism as an out-flow, and combined you have a constant. The mass of an object is created by gravity spinning around inside holes, and those holes are created by gravity collisions which with an in-flow, and an out-flow = 0. Zero has scale, and the scale is determined by the scale of gravity...
1 + -1 = 0
2 + -2 = 0
3 + -3 = 0
In mathematics the scale is being ignored, and the constant has no physics associated with it. However the logical interpretation of a constant is that it is countered in its force...
...big planet, big in-flow..big out-flow...
...small moon, small in-flow, small out-flow.
The size of gravity is created by it spinning around the hole that its own collisions produce. It produces a hole, because gravity is a scalar particle, the hole is an area of least resistance for its own scale. The scale of the universe is therefore determined by the spin of gravity around a hole, and where the area of highest resistance is pointing. Like a plughole the area of high resistance points diagonally across the hole which maintains the scale of gravity. The black hole at the centre of a galaxy plays the role of creating a gravity scale which would not be a fixed scale throughout the whole universe.
So although gravity seems to be a constant over a distance, it is the out-flow that counters the in-flow, yet the counter physics are scalar physics.
One part of the Universe... 1 + -1 = 0
Another part of the universe 5 + -5 = 0
Gravity maintains a constant yet the physics change over distances. So an interpretation of a constant first requires that you know what maintains the constant. The physics are most likely changing without it looking obvious.
Pincho Paxton
Calibrating cosmic mile markers
Pincho says...
Constants require physics that cancel out 1D propagation, which are that an Inflow is countered by an out-flow. In this case we are talking about gravity as an in-flow, and magnetism as an out-flow, and combined you have a constant. The mass of an object is created by gravity spinning around inside holes, and those holes are created by gravity collisions which with an in-flow, and an out-flow = 0. Zero has scale, and the scale is determined by the scale of gravity...
1 + -1 = 0
2 + -2 = 0
3 + -3 = 0
In mathematics the scale is being ignored, and the constant has no physics associated with it. However the logical interpretation of a constant is that it is countered in its force...
...big planet, big in-flow..big out-flow...
...small moon, small in-flow, small out-flow.
The size of gravity is created by it spinning around the hole that its own collisions produce. It produces a hole, because gravity is a scalar particle, the hole is an area of least resistance for its own scale. The scale of the universe is therefore determined by the spin of gravity around a hole, and where the area of highest resistance is pointing. Like a plughole the area of high resistance points diagonally across the hole which maintains the scale of gravity. The black hole at the centre of a galaxy plays the role of creating a gravity scale which would not be a fixed scale throughout the whole universe.
So although gravity seems to be a constant over a distance, it is the out-flow that counters the in-flow, yet the counter physics are scalar physics.
One part of the Universe... 1 + -1 = 0
Another part of the universe 5 + -5 = 0
Gravity maintains a constant yet the physics change over distances. So an interpretation of a constant first requires that you know what maintains the constant. The physics are most likely changing without it looking obvious.
Pincho Paxton