Post by Pincho Paxton on Jul 2, 2015 11:53:53 GMT
Link...
A loopy look at sunspots
Pincho says...
You can see here the rotations of gravity towards the orange area which would be an area of least resistance, a froth of holes pushed together by the inflow of gravity, and then bonded together loosely as gravity flows through the holes like they are doughnut rings. Then a series of collisions occur through an 'S' structure which would be a rotated Y plane, so Y has rotated close to the X/Z plane, and it wants to spring back to a vertical position, but gravity is trapped there. Gravity collides when trapped, and that creates the blue area as an outflow of reduced gravity, and it drags quantum holes along with it. The quantum holes are the area of least resistance moving outwards, so now a second surge of gravity attempts to flow in from the other side into the blue area. The blue area, and orange area are only determined by the area of least resistance percentage. If one side is 49.99999% resistant, and the other side is 50.11111, you with get the flow direction which will seem to be a large shift in physics. The spiral twists that you see are rotations towards the area of least resistance combined with a scale change in the size of gravity grains spinning around escaping quantum holes. The grain size determines which area the grain prefers because propagation is through doughnut rings, and the ring that matches the grain size is the best propagator of the physics. It's like a car wash, and you can only clean the car with the spinning rags touching the car, too close together and there is resistance on the car, too far apart, and nothing happens. These magnetic doughnut rings propagate with the ring circumference around a flowing string of particles. So you get rotations through a scale change of rings, and particles. The scale changes gravity to magnetism, and then magnetism back to gravity again... its cyclic like our weather system, and pretty much the same physics.
Pincho Paxton
A loopy look at sunspots
Pincho says...
You can see here the rotations of gravity towards the orange area which would be an area of least resistance, a froth of holes pushed together by the inflow of gravity, and then bonded together loosely as gravity flows through the holes like they are doughnut rings. Then a series of collisions occur through an 'S' structure which would be a rotated Y plane, so Y has rotated close to the X/Z plane, and it wants to spring back to a vertical position, but gravity is trapped there. Gravity collides when trapped, and that creates the blue area as an outflow of reduced gravity, and it drags quantum holes along with it. The quantum holes are the area of least resistance moving outwards, so now a second surge of gravity attempts to flow in from the other side into the blue area. The blue area, and orange area are only determined by the area of least resistance percentage. If one side is 49.99999% resistant, and the other side is 50.11111, you with get the flow direction which will seem to be a large shift in physics. The spiral twists that you see are rotations towards the area of least resistance combined with a scale change in the size of gravity grains spinning around escaping quantum holes. The grain size determines which area the grain prefers because propagation is through doughnut rings, and the ring that matches the grain size is the best propagator of the physics. It's like a car wash, and you can only clean the car with the spinning rags touching the car, too close together and there is resistance on the car, too far apart, and nothing happens. These magnetic doughnut rings propagate with the ring circumference around a flowing string of particles. So you get rotations through a scale change of rings, and particles. The scale changes gravity to magnetism, and then magnetism back to gravity again... its cyclic like our weather system, and pretty much the same physics.
Pincho Paxton