Understanding the Mechanism of Gravity with 'APE's
30th January 2016
Understanding the Mechanism of Gravity with 'APE's
Private & Confidential Copyright © Mr A Pépés
To understand how Gravity may work, you have to understand 'APE's.
What is an 'APE'?
Not the Apes that we belong to.
It is a dynamic quantum of 'Real Space'.
But what is 'Real Space'?
You may have read one of my other Tea Break Books and know what a 'Real Space" is, if not it is any space that is or could be 'Real'. This means it is not abstract or unreal, in the physical sense that we exist in.
An abstract space in contrast does not exist, other than in our minds or as representations as such. An abstract space can go to infinity in any and all directions if you so wish, but a 'Real Space' can not go to infinity in any direction.
For our convenience and understanding we can superimpose 'Real Spaces' on any abstract space we desire.
Let me use an example of a ceramic plate. The space that the plate occupies is 'Real' because the plate is 'Real'. We can place this plate in an abstract Euclidean or Cartesian grid and give it x,y,z coordinates, so the plate is or can still be represented as 'Real' but the surrounding space does not exist as 'Real' and does not exist as such.
In other words if you can make or take a 'Real' measurement then that space is 'Real', also, if you can measure a distance between two 'Real' objects or things, then that space between them is also 'Real'.
An example of an empty box exists in 'Real' space because the box exists, and the empty space inside the box also exists because the box exists.
[Note: - 'Real Spaces' can have empty spaces in them].
Back to the 'APE's. I said they were dynamic quantum ("Real") spaces.
What is a quantum of ("Real") space?
A quantum is usually a small finite piece of something that you can not make smaller, it comes in a specific size and does not vary! Quanta are normally referred to light and photons.
I use quantum to mean any size of some 'thing' that if you tried to reduce that 'thing' it would either cease to exist as that 'thing' or it could not be reduced any further. So it could be a microscopic quantum of something or a macroscopic quantum of something or a subatomic quantum of something.
So anything 'Real' can only exist above it's quantum of space.
As an example of a microscopic quantum of existence let us use a specific disease or infection, the quantum would be the specific bacteria that causes the disease, the disease could exist above this scale but not below this scale. If you try and reduce the bacterium, the bacterium would cease to exist and so would the disease.
An example of a macroscopic quantum of existence let us use a herd of cattle. The quantum here would be the 'cow', you can not have a herd of cattle with less than a 'cow'.
Back to the 'APE's. I said they were dynamic.
What does dynamic mean?
It normally means that it has movement, but what is moving, and in relation to what?
When I say the 'APE's are dynamic I mean that not only the 'APE's are dynamic in relation to each other, but they are intrinsically dynamic in themselves.
What does that mean?
Something is intrinsically static if the thing is static in itself. Let us use the ceramic plate as the example.
[We must remember that static relates to the scale that we are referring to, another Tea Break Book].
So the plate is intrinsically static because it does not move. We can make it move by dropping it or throwing it, it then becomes temporarily dynamic, but it is still intrinsically static, because none of the plate moves in relation to itself. (Eg. The shape does not change while it is moving, or the pattern on the plate does not move about on the plate).
A bullet is also intrinsically static, even though it may spin as it moves forwards out of the barrel. It also does not change shape while it is moving. (It only changes shape when it interacts with the target).
Let us use a kaleidoscope as another example. This is also intrinsically static, this is because none of the kaleidoscope moves on it's own accord. The kaleidoscope intrinsically moves only when it is extrinsically moved. (I.e. The internal pattern changes when you rotate it).
An engine on the other hand is intrinsically dynamic (while it has fuel) because the internal parts move in relation to itself. So it can be moving along and be extrinsically dynamic or it can be extrinsically static (stationary) and still be intrinsically dynamic. [Note: - the individual parts of the engine are still intrinsically static, even though the engine is intrinsically dynamic].
What does that all mean for the 'APE'?
The 'APE' has it's own momentum and keeps on moving on it's own accord, and does not need an extrinsic source (force) to react with to make it move.
In other words it is not extrinsically dynamic like the kaleidoscope or intrinsically dynamic like the engine (which needs extrinsic fuel to keep moving).
The 'APE' moves (is dynamic) not by just spinning turning or rotating, but has another property that it can change it's shape!
[Note: - Dynamic actually comes from the Greek word for Power, so the 'APE' is the ultimate creator of all the Forces (explained in another Tea Break Book)].
Before I go any further and describe the 'APE's many other properties (which will be required to understand the mechanism of gravity in detail) let us go back to the basic mechanism first.
Most people have heard the phrase "what goes up must come down", this is in relation to gravity, meaning eventually it will return to the ground due to gravity and it is only a matter of time before it does so. (Some one will always try and be clever and say but if it goes faster than the terminal velocity of the earth's gravitational field, or something to that effect, then it will not return, it will leave earth's orbit).
What I want you to consider is my phrase 'what goes in must come out!', again in relation to gravity!
You can consider it in other ways if you want to get distracted, but come back when you are ready.
I claim this is what makes gravity work (i.e. The mechanism).
Please consider this for a moment.
You are told that increasing the mass of an object increases it's gravitational pull on other objects. It pulls things in towards it's centre of mass. (You are also led to believe that this goes on infinitum to increasing density in black holes!).
Putting black holes aside for the moment, how can something keep pulling things in (towards it) and nothing appears to come out?
That is obviously what is puzzling the physicists (and everyone else). But consider my phrase earlier.
What if something is pulling things in (towards the centre of mass) but is then coming back out again.
Your first instinct will be the force (something is creating the force) or if you don't believe in the force, then it will be the curvature of spacetime due to the mass (the details that makes the space curve), in any event you will say that if it pulls on the way in, it should then push on the way out, or visa versa. (Remember we are still talking about gravity, but you can divert your attention temporarily if you can't help it, remember to come back when you are ready).
I will say 'exactly', except there is a twist (double twist if you really understand it). Gravity also pushes but to a lesser degree (in the opposite direction).
What is pushing the galaxies further apart?
Could it be another aspect of gravity?
I say of course it is. But I will have to explain how.
Back to local gravity. By local I mean nearby at our scales and not galactic scales.
Can something go in and then come out and still give the effect of gravity?
Do not say "no", say "maybe". Then ask how can that be?
I am going to use an example to show you how, (not the detail, but the concept). The answer is similar to "what goes up must come down" which is time dependent, except that 'what goes in must come out' is not only time dependent, but density dependent as well. (First understand the concept then understand the mechanism).
I will use the sea as the large object of mass pulling things in (and assume for our example that the bottom of the sea is the equivalent of the centre of mass of a gravitational object). I will use a balloon (with some water and air inside it) as the object being pulled. If the balloon was a solid ball of sufficient mass (and density) it would just sink to the bottom and stay there. Now if the balloon was the same mass and overall density as the solid ball it would also sink and stay at the bottom. Now the sea has pulled both objects towards it's supposed centre of mass.
Now imagine that the balloon does not change it's mass, but changes it's overall density (the mechanism doesn't really matter at this stage, it is the concept that matters, but for those that need a mechanism for the balloon, it just evaporates some of it's internal water and makes more water vapour, which in turn expands the balloon and reduces its overall density).
What will happen?
The balloon will be forced (pushed) to the surface of the sea. You should have noticed that nothing left the balloon going down (in) nor going up (out) of the sea. I.e. 'What went in came out'.
So you can see from this simple example that something can go in and come out without affecting the sea (the object). It obviously affects the sea by pushing aside some of the water as it goes in and out, but it pushes a different amount of water going in than when it comes out!
[Note: - It is this equivalent conceptual difference that makes Gravity pull and push differently at different scales, explained elsewhere].
Back to local gravity. Something (the 'APE's) cause the eventual force, or if you prefer the distortion of the space (the curvature), [or more precisely both, as they are aspects of the same thing (source)].
They do this merely by changing their overall density.
How do they change their overall density?
They do this through time. But the real question is what is time?
That is another Tea Break Book, but for now let us just think of time in the normal way, except that you must know that it is not an independent thing, it is an integral part of 'Real Space'.
For now let us just look at more of the details of the 'APE' that can achieve this overall density change in space using only it's intrinsic momentum. In other words it does not need an extrinsic force to change it's density, although other 'APE's also affect it's density.
[Note: - this is how matter is created, again another Tea Break Book].
You may not have known that I use 'APE's to create all energy and matter (dark energy, antimatter, everything that can exist). But for the purpose of understanding gravity you just need to know that all matter is ultimately made of 'APE's ('Real Spaces') of different densities (the different densities are achieved by the interactions of the 'APE's among themselves, another Tea Break Book).
The question must be asked 'how can things go in and out of things' in 'Real Space'?
Earlier I said that 'Real Space' is anything that can exist, and that 'Real Spaces' can have empty spaces within them.
So consider the following with respect of my claim "everything is made of 'APE's".
How can something (made of 'APE's) go into something else if it is also made of the same thing ('APE's)?
If it can do so, (remember my phrase 'what goes in must come out'), how can one 'APE' go in and out of another 'APE'?
(For those that get distracted, remember to come back!).
It must not break the 'APE' remember it is quantised.
If you think about it, the only way it can go in and out is if it had a hole in it. (Stay focused).
But how can both go in and out of each other?
Again if you think about it, it can only be done if they change the size of their holes (in time of course, I don't mean synchronously, but asynchronously).
The question then becomes 'how do they change the size of their holes'?
Obviously they change their shape, but it just reminds me of a puzzle that I thought was not possible (because I could not think of the answer at the time, so I thought it was impossible).
The puzzle was the following: - you have a piece of paper (normal A4 sheet) and you are given a scissors, and asked to cut a hole in the paper, then walk through the hole!
My first instinct was to think about it before I opened my mouth and make a fool of myself.
On thinking about it, I realised that I was so much larger than the paper, that it could not be done, even though I had a small head, even if I tried to get my head through, it would tear the paper (which was not allowed). So I emphatically said it was impossible. But to my surprise I could cut a hole in the paper and I could walk through it!! After that (although I still say some things are impossible), I reserve judgement until I have heard the answer.
I will just give you the answer for the 'APE's (but if you want a detailed answer as to how I got there you need to read another Tea Break Book on the 'APE's), it looks like a joined up slinky, which is basically a toroid or ring. It expands and contracts in time creating a 'virtual object' in space time, where it's overall density also changes in time, therefore one 'APE' can travel through another 'APE'. Their cycles I called 'kquists' due to their motion which I described as 'twisting spiralation' (another Tea Break Book).
Back to gravity that these 'APE's create. During their cycle as they expand they push (other 'APE's) away from them (like the balloon rising in our sea example) and during their contraction they pull (other 'APE's) towards them (our balloon sinking example).
Now all you have to do is imagine the sea is made of 'APE's (held together by other 'APE's) such that the complex of 'APE's (the sea) has a higher density than the free 'APE's (balloons).
Remember the complex of 'APE's in the sea still have holes in them so the free 'APE's are still pulled through them and out again, but with a greater force than the individual 'APE's can exert on the complex.
[Note: - the force is proportional to the cross section of the holes].
The density is also dependent on the cross section of the hole, but is also dependent on how many 'APE's occupy the same space! More complex to imagine, it is best to see a physical model.
Back to the force of gravity. All forces act ultimately on surface areas. When you push or pull on something it is the energy you supply to the surface area that determines the force. So the same amount of energy can produce different forces per unit area.
[Note: - this ultimately unites all the forces to the one force, another Tea Break Book].
As energy is ultimately 'APE's, they apply a different force dependent on their reactive surface pulling or pushing.
If we go to the sea example again, the balloons that sink have a smaller surface area so push downwards harder per unit area, but the balloons that rise push upwards weaker because they have a larger surface area (the same amount of energy applied over a greater area). If you balance the two forces (as the 'APE's travel through each other) you get a net force downwards i.e. Gravity.
It is like space is full of bubbles being blown out of objects, pushing other bubbles away from each other, but at the same time objects are pulling in bubbles and slowly pulling each other together.
Think of it like the following: - the less dense 'APE's do not apply a big force, so they are weakly held together, the more dense 'APE's apply a larger force and are strongly held together. As there are imaginary chains of bubbles (of different densities, averaged over time) between objects, as the objects pull on the chains they will slowly pull themselves together because the stronger chains will hold on longer (helping them to pull together), but the weaker chains will break easier as they are pushed away (thereby not pushing the objects away as much as being pulled).
Imagine you and a friend are on an ice rink and it is filled with sticky balloons:- you have to reach each other by pulling and pushing balloons. (For the sake of simplicity imagine there are two types of balloons, larger less sticky balloons and smaller more sticky balloons, to represent the weak and strong 'APE's). If you both pull on the more sticky balloons and push on the less sticky balloons, you will eventually pull towards each other! (Not sure that is a good example, I'll try and think of a better one).
9th December 2016
Private & Confidential Copyright © Mr A Pépés
Today I am going to neologise and define the word 'Vorsex' or 'Vorsexes' which is the vortex or vortexes or vortices of 'Real' space itself. In a similar fashion that a vortex of wind is called a whirlwind, or the vortex of water is called a whirlpool. Even plasma can have a vortex, but all these vortexes have eddies or smaller vortexes within them. At the atomic scales everything has vortexes of some sort or another. So convection eg. Hot air rises and cold air sinks, appears to be just up and down, but in reality this is just little vortices of air moving upwards and little vortices moving downwards.
A 'Vorsex' is specific to space itself, because it not only moves things like in whirlwinds, but moves space through each other in both directions and twists it in both directions at the same time (³Time, you need to understand time, explained in another Tea Break Book). The 'Vorsex' is created by the 'kquists' or 'twisting spiralations' of the 'APE's (quantum dynamic spaces) interacting with each other creating quantum fluctuations in vacuum energy at the lowest level, but also creating other energies and matter at higher scales. It is ubiquitous at all levels and scales.
Morph your mind with Morphological at
apepes.com
Understanding the Mechanism of Gravity with 'APE's
Private & Confidential Copyright © Mr A Pépés
To understand how Gravity may work, you have to understand 'APE's.
What is an 'APE'?
Not the Apes that we belong to.
It is a dynamic quantum of 'Real Space'.
But what is 'Real Space'?
You may have read one of my other Tea Break Books and know what a 'Real Space" is, if not it is any space that is or could be 'Real'. This means it is not abstract or unreal, in the physical sense that we exist in.
An abstract space in contrast does not exist, other than in our minds or as representations as such. An abstract space can go to infinity in any and all directions if you so wish, but a 'Real Space' can not go to infinity in any direction.
For our convenience and understanding we can superimpose 'Real Spaces' on any abstract space we desire.
Let me use an example of a ceramic plate. The space that the plate occupies is 'Real' because the plate is 'Real'. We can place this plate in an abstract Euclidean or Cartesian grid and give it x,y,z coordinates, so the plate is or can still be represented as 'Real' but the surrounding space does not exist as 'Real' and does not exist as such.
In other words if you can make or take a 'Real' measurement then that space is 'Real', also, if you can measure a distance between two 'Real' objects or things, then that space between them is also 'Real'.
An example of an empty box exists in 'Real' space because the box exists, and the empty space inside the box also exists because the box exists.
[Note: - 'Real Spaces' can have empty spaces in them].
Back to the 'APE's. I said they were dynamic quantum ("Real") spaces.
What is a quantum of ("Real") space?
A quantum is usually a small finite piece of something that you can not make smaller, it comes in a specific size and does not vary! Quanta are normally referred to light and photons.
I use quantum to mean any size of some 'thing' that if you tried to reduce that 'thing' it would either cease to exist as that 'thing' or it could not be reduced any further. So it could be a microscopic quantum of something or a macroscopic quantum of something or a subatomic quantum of something.
So anything 'Real' can only exist above it's quantum of space.
As an example of a microscopic quantum of existence let us use a specific disease or infection, the quantum would be the specific bacteria that causes the disease, the disease could exist above this scale but not below this scale. If you try and reduce the bacterium, the bacterium would cease to exist and so would the disease.
An example of a macroscopic quantum of existence let us use a herd of cattle. The quantum here would be the 'cow', you can not have a herd of cattle with less than a 'cow'.
Back to the 'APE's. I said they were dynamic.
What does dynamic mean?
It normally means that it has movement, but what is moving, and in relation to what?
When I say the 'APE's are dynamic I mean that not only the 'APE's are dynamic in relation to each other, but they are intrinsically dynamic in themselves.
What does that mean?
Something is intrinsically static if the thing is static in itself. Let us use the ceramic plate as the example.
[We must remember that static relates to the scale that we are referring to, another Tea Break Book].
So the plate is intrinsically static because it does not move. We can make it move by dropping it or throwing it, it then becomes temporarily dynamic, but it is still intrinsically static, because none of the plate moves in relation to itself. (Eg. The shape does not change while it is moving, or the pattern on the plate does not move about on the plate).
A bullet is also intrinsically static, even though it may spin as it moves forwards out of the barrel. It also does not change shape while it is moving. (It only changes shape when it interacts with the target).
Let us use a kaleidoscope as another example. This is also intrinsically static, this is because none of the kaleidoscope moves on it's own accord. The kaleidoscope intrinsically moves only when it is extrinsically moved. (I.e. The internal pattern changes when you rotate it).
An engine on the other hand is intrinsically dynamic (while it has fuel) because the internal parts move in relation to itself. So it can be moving along and be extrinsically dynamic or it can be extrinsically static (stationary) and still be intrinsically dynamic. [Note: - the individual parts of the engine are still intrinsically static, even though the engine is intrinsically dynamic].
What does that all mean for the 'APE'?
The 'APE' has it's own momentum and keeps on moving on it's own accord, and does not need an extrinsic source (force) to react with to make it move.
In other words it is not extrinsically dynamic like the kaleidoscope or intrinsically dynamic like the engine (which needs extrinsic fuel to keep moving).
The 'APE' moves (is dynamic) not by just spinning turning or rotating, but has another property that it can change it's shape!
[Note: - Dynamic actually comes from the Greek word for Power, so the 'APE' is the ultimate creator of all the Forces (explained in another Tea Break Book)].
Before I go any further and describe the 'APE's many other properties (which will be required to understand the mechanism of gravity in detail) let us go back to the basic mechanism first.
Most people have heard the phrase "what goes up must come down", this is in relation to gravity, meaning eventually it will return to the ground due to gravity and it is only a matter of time before it does so. (Some one will always try and be clever and say but if it goes faster than the terminal velocity of the earth's gravitational field, or something to that effect, then it will not return, it will leave earth's orbit).
What I want you to consider is my phrase 'what goes in must come out!', again in relation to gravity!
You can consider it in other ways if you want to get distracted, but come back when you are ready.
I claim this is what makes gravity work (i.e. The mechanism).
Please consider this for a moment.
You are told that increasing the mass of an object increases it's gravitational pull on other objects. It pulls things in towards it's centre of mass. (You are also led to believe that this goes on infinitum to increasing density in black holes!).
Putting black holes aside for the moment, how can something keep pulling things in (towards it) and nothing appears to come out?
That is obviously what is puzzling the physicists (and everyone else). But consider my phrase earlier.
What if something is pulling things in (towards the centre of mass) but is then coming back out again.
Your first instinct will be the force (something is creating the force) or if you don't believe in the force, then it will be the curvature of spacetime due to the mass (the details that makes the space curve), in any event you will say that if it pulls on the way in, it should then push on the way out, or visa versa. (Remember we are still talking about gravity, but you can divert your attention temporarily if you can't help it, remember to come back when you are ready).
I will say 'exactly', except there is a twist (double twist if you really understand it). Gravity also pushes but to a lesser degree (in the opposite direction).
What is pushing the galaxies further apart?
Could it be another aspect of gravity?
I say of course it is. But I will have to explain how.
Back to local gravity. By local I mean nearby at our scales and not galactic scales.
Can something go in and then come out and still give the effect of gravity?
Do not say "no", say "maybe". Then ask how can that be?
I am going to use an example to show you how, (not the detail, but the concept). The answer is similar to "what goes up must come down" which is time dependent, except that 'what goes in must come out' is not only time dependent, but density dependent as well. (First understand the concept then understand the mechanism).
I will use the sea as the large object of mass pulling things in (and assume for our example that the bottom of the sea is the equivalent of the centre of mass of a gravitational object). I will use a balloon (with some water and air inside it) as the object being pulled. If the balloon was a solid ball of sufficient mass (and density) it would just sink to the bottom and stay there. Now if the balloon was the same mass and overall density as the solid ball it would also sink and stay at the bottom. Now the sea has pulled both objects towards it's supposed centre of mass.
Now imagine that the balloon does not change it's mass, but changes it's overall density (the mechanism doesn't really matter at this stage, it is the concept that matters, but for those that need a mechanism for the balloon, it just evaporates some of it's internal water and makes more water vapour, which in turn expands the balloon and reduces its overall density).
What will happen?
The balloon will be forced (pushed) to the surface of the sea. You should have noticed that nothing left the balloon going down (in) nor going up (out) of the sea. I.e. 'What went in came out'.
So you can see from this simple example that something can go in and come out without affecting the sea (the object). It obviously affects the sea by pushing aside some of the water as it goes in and out, but it pushes a different amount of water going in than when it comes out!
[Note: - It is this equivalent conceptual difference that makes Gravity pull and push differently at different scales, explained elsewhere].
Back to local gravity. Something (the 'APE's) cause the eventual force, or if you prefer the distortion of the space (the curvature), [or more precisely both, as they are aspects of the same thing (source)].
They do this merely by changing their overall density.
How do they change their overall density?
They do this through time. But the real question is what is time?
That is another Tea Break Book, but for now let us just think of time in the normal way, except that you must know that it is not an independent thing, it is an integral part of 'Real Space'.
For now let us just look at more of the details of the 'APE' that can achieve this overall density change in space using only it's intrinsic momentum. In other words it does not need an extrinsic force to change it's density, although other 'APE's also affect it's density.
[Note: - this is how matter is created, again another Tea Break Book].
You may not have known that I use 'APE's to create all energy and matter (dark energy, antimatter, everything that can exist). But for the purpose of understanding gravity you just need to know that all matter is ultimately made of 'APE's ('Real Spaces') of different densities (the different densities are achieved by the interactions of the 'APE's among themselves, another Tea Break Book).
The question must be asked 'how can things go in and out of things' in 'Real Space'?
Earlier I said that 'Real Space' is anything that can exist, and that 'Real Spaces' can have empty spaces within them.
So consider the following with respect of my claim "everything is made of 'APE's".
How can something (made of 'APE's) go into something else if it is also made of the same thing ('APE's)?
If it can do so, (remember my phrase 'what goes in must come out'), how can one 'APE' go in and out of another 'APE'?
(For those that get distracted, remember to come back!).
It must not break the 'APE' remember it is quantised.
If you think about it, the only way it can go in and out is if it had a hole in it. (Stay focused).
But how can both go in and out of each other?
Again if you think about it, it can only be done if they change the size of their holes (in time of course, I don't mean synchronously, but asynchronously).
The question then becomes 'how do they change the size of their holes'?
Obviously they change their shape, but it just reminds me of a puzzle that I thought was not possible (because I could not think of the answer at the time, so I thought it was impossible).
The puzzle was the following: - you have a piece of paper (normal A4 sheet) and you are given a scissors, and asked to cut a hole in the paper, then walk through the hole!
My first instinct was to think about it before I opened my mouth and make a fool of myself.
On thinking about it, I realised that I was so much larger than the paper, that it could not be done, even though I had a small head, even if I tried to get my head through, it would tear the paper (which was not allowed). So I emphatically said it was impossible. But to my surprise I could cut a hole in the paper and I could walk through it!! After that (although I still say some things are impossible), I reserve judgement until I have heard the answer.
I will just give you the answer for the 'APE's (but if you want a detailed answer as to how I got there you need to read another Tea Break Book on the 'APE's), it looks like a joined up slinky, which is basically a toroid or ring. It expands and contracts in time creating a 'virtual object' in space time, where it's overall density also changes in time, therefore one 'APE' can travel through another 'APE'. Their cycles I called 'kquists' due to their motion which I described as 'twisting spiralation' (another Tea Break Book).
Back to gravity that these 'APE's create. During their cycle as they expand they push (other 'APE's) away from them (like the balloon rising in our sea example) and during their contraction they pull (other 'APE's) towards them (our balloon sinking example).
Now all you have to do is imagine the sea is made of 'APE's (held together by other 'APE's) such that the complex of 'APE's (the sea) has a higher density than the free 'APE's (balloons).
Remember the complex of 'APE's in the sea still have holes in them so the free 'APE's are still pulled through them and out again, but with a greater force than the individual 'APE's can exert on the complex.
[Note: - the force is proportional to the cross section of the holes].
The density is also dependent on the cross section of the hole, but is also dependent on how many 'APE's occupy the same space! More complex to imagine, it is best to see a physical model.
Back to the force of gravity. All forces act ultimately on surface areas. When you push or pull on something it is the energy you supply to the surface area that determines the force. So the same amount of energy can produce different forces per unit area.
[Note: - this ultimately unites all the forces to the one force, another Tea Break Book].
As energy is ultimately 'APE's, they apply a different force dependent on their reactive surface pulling or pushing.
If we go to the sea example again, the balloons that sink have a smaller surface area so push downwards harder per unit area, but the balloons that rise push upwards weaker because they have a larger surface area (the same amount of energy applied over a greater area). If you balance the two forces (as the 'APE's travel through each other) you get a net force downwards i.e. Gravity.
It is like space is full of bubbles being blown out of objects, pushing other bubbles away from each other, but at the same time objects are pulling in bubbles and slowly pulling each other together.
Think of it like the following: - the less dense 'APE's do not apply a big force, so they are weakly held together, the more dense 'APE's apply a larger force and are strongly held together. As there are imaginary chains of bubbles (of different densities, averaged over time) between objects, as the objects pull on the chains they will slowly pull themselves together because the stronger chains will hold on longer (helping them to pull together), but the weaker chains will break easier as they are pushed away (thereby not pushing the objects away as much as being pulled).
Imagine you and a friend are on an ice rink and it is filled with sticky balloons:- you have to reach each other by pulling and pushing balloons. (For the sake of simplicity imagine there are two types of balloons, larger less sticky balloons and smaller more sticky balloons, to represent the weak and strong 'APE's). If you both pull on the more sticky balloons and push on the less sticky balloons, you will eventually pull towards each other! (Not sure that is a good example, I'll try and think of a better one).
9th December 2016
Private & Confidential Copyright © Mr A Pépés
Today I am going to neologise and define the word 'Vorsex' or 'Vorsexes' which is the vortex or vortexes or vortices of 'Real' space itself. In a similar fashion that a vortex of wind is called a whirlwind, or the vortex of water is called a whirlpool. Even plasma can have a vortex, but all these vortexes have eddies or smaller vortexes within them. At the atomic scales everything has vortexes of some sort or another. So convection eg. Hot air rises and cold air sinks, appears to be just up and down, but in reality this is just little vortices of air moving upwards and little vortices moving downwards.
A 'Vorsex' is specific to space itself, because it not only moves things like in whirlwinds, but moves space through each other in both directions and twists it in both directions at the same time (³Time, you need to understand time, explained in another Tea Break Book). The 'Vorsex' is created by the 'kquists' or 'twisting spiralations' of the 'APE's (quantum dynamic spaces) interacting with each other creating quantum fluctuations in vacuum energy at the lowest level, but also creating other energies and matter at higher scales. It is ubiquitous at all levels and scales.
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