11. FORCE OF ATTRACTION

11. FORCE OF ATTRACTION

As already mentioned, an ethereal flow, causing the particle to move along with filling it Ether is a Force (in this case, a Force of Attraction).

Force of Attraction can occur in particles of any quality. Let's look at the details of the mechanism of gravity on example of particles of different quality. A thought experiment that we are conducting occurs in ideal conditions – i.e. in a totally empty space. One of the interacting particles necessarily has a Field of Attraction.

1) Both interacting particles have Fields of Attraction.

A) The value of Attraction Fields of both particles is the same. In this case, each of the particles is both attractive and attracted. In each of the particles an Attractive Force occurs and it causes the particle to come closer to the second particle.

In this case, each of the particles is in the composition of the ethereal cloth. And this ethereal fabric is contracted from both sides, and both particles move in its composition. And each of them is subject to the first principle of behavior of Ether - "In the ethereal field voids do not occur". In accordance with this principle, in each of sides there an ethereal flow is, directed to the second particle. I.e. each of these particles creates toward itself an ethereal flow – a Field of Attraction. And other particle responds to this ethereal flow, as it is filled with Ether too. Therefore it moves in the composition of this ethereal flow in the direction of a second particle which is its cause.

The Force of Attraction of each of two gravitating particles - is an ethereal flow, carrying it to another, attracting it particle. The Force of Attraction of each of two attracted particles we can measure by the speed with which the attracted particle comes near to the attracting one.

What factors determines the speed of approaching of an attracted particle to attracting?

Well, firstly, a magnitude of the Field of Attraction of attracting particle. This is the first factor. An ethereal flow, which is composed of attracted particle, approaches to this particle. A magnitude of Field of Attraction, as we recall, is the value of the rate of absorption of Ether by the object forming this field. The speed with which Ether moves to the object forming this field depends on the distance to the object. The greater is a distance, the slower a flow of Ether is and the lower, respectively, the Force of Attraction to the object that arises at this point. Thus, a distance to attracting particles - this is the second factor influencing a magnitude of Force of Attraction.

And finally, the third factor - is a quality of an attracted particle. Quality of particles can be anything. This is either an Attractive Field or a Repulsion Field. And the value of the field can be any. In this case we are talking about an attracted particle with a Field of Attraction. So why does a quality of a particle affect a magnitude of Force of Attraction?

All the matter is that any particle with a Field of Attraction, absorbing Ether, thereby constantly creates around a so-called "ethereal pit" (ethereal void). It turns out that a particle will fall into an "ethereal pit" which it constantly creates itself on the other side, where the attracting particle is. And a speed of creation of "ethereal pit" corresponds to the rate of absorption of Ether by itself – i.e. to its value of the Field of Attraction.

Thus, we now take and slightly modify the formula of Isaac Newton, describing the law of gravitation. Of course, the scientist applies his law only to macro-objects - in particular, to the heavenly bodies. But any body is constructed of chemical elements, which in turn are built from elementary particles. And so gravity in the first turn is inherent to elementary particles. At Newton an Attraction Force equals the product of two masses divided by the square of the distance between the bodies:

F = m1 × m2 / r ² (coefficient G left aside here, because we want to draw your attention to the basic physical quantities).

Amendments to this formula will be as follows. First, instead of the multiplication, we use the sum. In order to know at some point of time the speed at which an investigated attracted particle comes near to an attracting object, we need not to multiply their Fields of Attraction (masses), namely to sum. A Field Attraction - is speed of moving of Ether to an object which absorbs Ether. In order to know the speed of particles is necessary to sum the speed of ethereal flow generated by an attracting particle (the value of its Field of Attraction at this point), as well as the speed with which an attracted particle falls into the created by itself an "ethereal pit".

So we just have to take mass of an attracted particle and to add to it an Attractive Field of an attracting particle, calculated at a given point, i.e. given a distance. To do this, we do not take an original value of the mass of the attracting object, and the mass divided by the distance. I.e. formula for calculating Force of Attraction must have the form:

F = (m1 / r) + m2, where m1 / r - is the mass of an attracting object, calculated for a given point, i.e. given the distance, and m2 - is the mass of an attracted particle. This formula can be applied not only in relation to one individual elementary particle, but also to attraction of chemical elements, as well as bodies.

Pay attention! This formula is suitable only for those cases where an object itself has a Field of Attraction – i.e. mass. If an attracted particle has antimass (i.e. generates a Repulsive Field), the formula will change somewhat. How it will change, we will see below.

An Attraction Field increases as we come near to the source of this field. This means that the closer to a source of gravity, the higher the speed of an ethereal flow is. For this reason, convergence of an attracted particle to an attracting particle occurs at not a constant speed, and at acceleration. Note, should not confuse this acceleration with an acceleration of bodies, which is observed during their free fall in the atmosphere of a celestial body.

In this case, Fields of Attraction of both particles are equal. This means that both will come near each other with the same acceleration. However, as we’ll see in the following example, all will be somewhat different in the case of Attraction Fields of particles are not the same. And even the most difference will be when an attracted particle has not the Field of Attraction and the Field of Repulsion.

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B) The value of Attraction Field of one of the particles is larger than Field of Attraction of other particle.

Even despite the fact that in this case the value of Fields of Attraction of the particles is different, the mechanism of their attraction to each other in many respects similar to that described above. In this case, only one of the particles is an attracted to each other - the one that has greater Attraction Field value (attracts Ether with a higher speed). It is this particle becomes a cause of Force of Attraction in the second particle - with less Field of Attraction. The magnitude of this Force of Attraction can be found from the formula that we derived in the previous example: F = (m1 / r) + m2, where m1 / r - is the mass of an attracting object, calculated for a given point, i.e. given the distance and m2 - is the mass of an attracted particle. Here m1 - is the mass of the particle with a larger Field of Attraction and m2 – is the mass of a particle with the Field of lesser magnitude.

2) An attracted particle has Field of Repulsion.

In this case, a Force of Attraction also occurs in only one particle - one that has a Field of Repulsion. The particle with a Field of Attraction calls the Force.

In this case, the attracted particle is also moving towards the attracting particle comprising an ethereal flow, which it creates. However, an attracted particle with a Field of Repulsion constantly emits in all directions Ether - including in the direction of an attracting particle. Thus, this particle is constantly increasing a number of Ether, that shares it and the gravitating particle – i.e. constantly forms a kind of "ethereal cushion" that prevents a convergence of the particle with attracting one or just slows it.

A Repulsion Field - is also an ethereal flow, but not coming ear to the particle, and moving away from it. And all the particles that fall into a zone of action of this ethereal flow also move with it and move away from the source of this Repulsion Field. I.e. because an attracted particle possess by a Field of Repulsion, it causes a response Force in attracting particle - a Force of Repulsion.

Particles will approach still closer or there will be their distancing or the distance between them remains constant, it depends of the Fields of Attraction of an attracting particle at a given distance and of the Field of Repulsion of an attracted particle. If both fields at a given point are equal in magnitude, the distance between the particles will remain unchanged. If the magnitude of the Field of Attraction at a given point of Attraction is more in modulus, the particles will approach closer. And if more the value of Repulsion Field of a particle, the distance between the particles will increase.

And here is the promised formula for calculating an initial Force of Attraction of a particle, which itself has a Field of Repulsion.

F = (m1 / r) - am2, where m1 / r - is the mass of an attracting object, calculated for a given point, i.e. given the distance and am2 - is the antimass of an attracted particle. Note here we make no summing of the Fields of Attraction and Repulsion, and their subtraction. Subtraction we produce for the reason that a Repulsive Field of an attracted particle reduces the speed at which in each moment of time this particle tends to move in the direction of the attracting particle.

Let us illustrate the above formula by means of small computing.

Assume the mass of an attracted particle equals 9 arbitrary units. The antimass of an attracted particle is 3 standard units, and the distance between the particles is 2 standard units. Then, according to the formula a primary Force of Attraction in the attracting particle is: F = (9/2) - 3 = 1.5.

Since the Force of Attraction here has the "+" sign, the attracted particle with the Field of Repulsion will approach closer with the attracting particle.

There is another example. The mass of an attracting particle equals 6 standard units. The antimass of an attracted particle is 3 standard units, and the distance between the particles is 2 standard units. Then, according to the formula a primary Force of Attraction in the attracted particle is: F = (6/2) - 3 = 0.

Since the Force of Attraction in this case is zero, there will no be an approaching of the particles or distancing them.

  There is a third example. The mass of an attracted particle equals 4 standard units. The antimass of an attracted particle is 3 standard units. The distance between the particles is 2 standard units. Then, according to the formula a primary Force of Attraction in the attracted particle is: F = (4/2) - 3 = -1.

In this case, the Force of Attraction has a "-" sign. This means that the particles will drift apart from each other.