|
Post by Pincho Paxton on Apr 16, 2020 8:39:10 GMT
Lets take a look at... F = G M1 M2/R2
With this formula you would think that mass moves towards mass due to the force of gravity, and you might think that there is a pull force involved... none of that is true.
And that's why formulas don't work in science... you have to know the physics!
Mass does not move towards mass... it is a secondary effect to something else which is the opposite to mass, negative mass.
Fillers move towards holes which is not explained in the formula at all! Or you can say that resistance moves towards the area of least resistance, but anyway... Gravity moves towards holes in gravity.
F = G M1 M2/R2... does not suggest that gravity moves towards holes in gravity.
When gravity moves into a hole it creates mass, and so the secondary physics to the movement of gravity is mass, yet the force was towards negative mass. So F is wrong, and M1 M2 are misleading, and there is no such thing as a pull force, because gravity moves towards holes in gravity due to bump propagation.
So the formula F = G M1 M2/R2 is completely wrong, but the secondary physics of mass look like they move towards more mass so the formula works as an optical illusion. Pull forces work as an optical illusion like when a drink goes up a straw, it is a push force from the air around the drink that looks like a pull force.
Gravity moves from space towards the Earth, and builds matter by spinning around in negative mass holes to create Mass. So formulas are not correct unless you figure out the physics first, but may still work.
Pincho Paxton
|
|
|
Post by Pincho Paxton on Aug 4, 2021 15:46:50 GMT
There are plenty of formulas that can look OK, but using my method of using mechanics instead of maths I can see that they are wrong. For example expansion of the Universe is wrong, that's another formula that you can mess around with!
Gravity moves towards points, the area of high resistance is towards points from the outside, and gravity is moving towards the area of least resistance.
So in that scenario you can imagine a bunch of balloons, and the area of least resistance towards points deflates them all at the same speed. What you will then see is that the balloons all move apart, but at the same time are shrinking. However the shrinking is held together by gravity, but the distance between the balloons shares gravity between them in opposite directions. Gravity moves in from space in other words, and between objects in space there is an outflow from gravity which is Dark Matter. Gravity scales down at points, and escapes as dark matter at a smaller scale, travels against the in-flow, and separates galaxies.
So you have scale down, and flow out, which replaces Inflation.
It's a sort of Relative version of inflation.
Pincho Paxton
|
|
|
Post by Pincho Paxton on Aug 4, 2021 21:26:07 GMT
Part 3 Physical processes moving to least-energetic states is wrong
I've read this a couple of times now in science, and it's wrong... only slightly though. Sometimes a slight alteration of the facts can turn a whole idea around, and in this case it changes the entire direction of physics such as in phase transitions.
Energy is a bit of a mistake in itself as there is only one force, from higher resistance to lower resistance.
So what is the mistake in the title?
The least energetic state is actually a spin with the original energy stored in it, so as you can tell by that the energy is still there. But what is actually important is the area of least resistance which is a negative mass hole where the energy ends up. When you think you see something moving towards the least energetic state what you are actually seeing is something moving towards the area of least resistance.
There are new consequences for something moving towards the area of least resistance, and that is that they will create their own high resistance at that spot! It's like the Hillsborough Disaster where a large crowd of people all move towards the area of least resistance at the same time, they create high resistance towards the area of least resistance. That's what gravity does! Then it escapes from those consequences... the high resistance in the centre of a body of mass scales gravity down so it escapes.
That is not to do with moving towards least energetic states.
|
|