The distance between gravitationally interacting bodies.
Does the distance between gravitationally interacting objects affect the magnitude of Force of Attraction?
The answer – “yes”. Distance to the object with Field of Attraction affects the value of Force of Attraction, caused by this object in the studied particle.
As already mentioned, a particle is a sphere and if moving away from it, the volume of space surrounding the particle will increase concentrically. Accordingly, the farther away from the particle, the bigger is an amount of Ether surrounding the particle. Each particle with Force of Attraction absorbs Ether from the ambient ethereal field at a certain speed. The speed of absorption of Ether by the particle - this is originally inherent to this particle a value of the Field of Attraction. However, the farther away from a particle, the greater is an amount of Ether will surround it. Accordingly, the farther away from a particle, the smaller will be the rate at which Ether is closer to a given particle (i.e., the smaller the speed of an ethereal flow) - i.e. the smaller is the value of the Field of Attraction. Thus, we say, first, about the value of the Field of Attraction originally inherent to this particle, and second, about the value of the Field of Attraction at a certain distance from the particle.
Accordingly, the farther away an investigated particle is from the particle with the Field of Attraction, causing in it the Force of Gravity, the less is the value of this Force.
For example, let’s consider such a case. Some particle interacts with two particles forming Fields of Attraction. However, the Gravity Field of one of these particles is greater than the Field of Attraction of the second particle. Nevertheless, all ultimately determine the distance at which these particles will be situated from the investigated particle. And it may happen that a particle with a larger Field of Attraction causes a smaller Force of Attraction - if it will be much farther than a particle with smaller Field of Attraction.
13. MASS IS FIELD OF ATTRACTION, WEIGHT – IS FORCE OF ATTRACTION
A little earlier, we have already put an equal sign between the concepts of mass and Field of Attraction. Now let's find out what is weight.
Referring to the Encyclopedic Dictionary - what is definition of weight given there?
"Weight is a force with which a body acts on a reliance (or hanger), it prevents free fall" (Soviet Encyclopedic Dictionary, ed. Prokhorov).
"Weight is a numerical value of the Force of Gravity acting on a body located near the earth's surface" (Physical Encyclopedic Dictionary, ed. Prokhorov).
In this case, the concept expounded in this book, is consonant with the theory of modern physics. Weight - is Force of Attraction (Gravity).
In encyclopedic dictionaries nobody says about weight of elementary particles, this term everybody refers only to bodies. However, bodies are constructed of chemical elements, which, in its turn, consist of elementary particles. Therefore, before we talk about weight (Force of Attraction) of bodies, we should apply this concept to elementary particles.
A source of Field of Attraction is a particle with Field of Attraction or a chemical element, which fully or partially manifests outwardly the Total Field of Attraction, or a body of usual sizes, containing elements with Fields of Attraction, or a celestial body. If we take at random any elementary particle, then any of these sources will cause in it the corresponding Force of Gravity. Any of these Forces represents just the weight of particle with respect to the source of the Field of Attraction, causing this Force.
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