User:TrueFoundation

Understanding Gravity in depth

To understand this phenomenon, I had to refer my self to the best available reference with some updates to its components, i.e. Sir Isaac NEWTON’s Gravity formula: F_((g) )=G (M.m)/r^2 G Gravitational Constant: In this equation, it's representing the properties of the medium in which gravity force is acting on two separate body mass, represented here as M and m. This property, while is talking about the way this force can be transmitted through the medium to connect the related bodies of mass with force F_((g) ), also addresses many other aspects of this medium like (Pressure, Temperature, Particles Densities, Other Forces involved like Electro Magnetism … etc). In summary, any factors involved or related to the medium whether matter or energy related, can vary the coefficient G and it’s a very complex and unlikely calculatable directly from its elements involved. To support my claim, I encourage all by relying on your common senses and think logically for now.

Real case #1 Let consider a well-known situation like near inside a Black Hole. Whatever happening after horizon one can be sure very highly violent activity due to strong gravitational pull. Prediction of G coefficient for such an environment, based on the factors involved considering the last description in this paper, it’s most likely scale extremely high figure as such G result in somewhere close to infinite. Real case #2 Based on the explanation of the G coefficient and connection to the factor or elements involved within the medium, it's very easy to predict what's the situations would be at an absolute true vacuum condition which’s not possible to experiment or reach to observe ever. It’s very clear within such an environment, there isn’t anything that exists to result in a factor to shape the G coefficient. Therefore, we should expect a value near zero or zero, which is an unexpected situation. Surprisingly our equation indicates of Gravity has no effects. What am I trying to clear so far, Fact #1 G factor can vary depending on the medium involved. Fact #2 Gravity is not a fundamental force. Looking at the equation in detail, you’ll realize components of the equation have many dependencies, which can assure the result of their products i.e. F_((g) ) is also having similar dependencies which some are of other fundamental forces like magnetism, weak nuclear forces. This is an indication of a nonfundamental force, consist of many factors including some fundamental forces, therefore Gravity can’t be a fundamental force.

So far, it’s easy to follow and understand, further, it's getting hard to deny the facts as we progress making deeper sense of the situations and having a better understanding of the Gravity and its components.

Now I need to update and complete the definition of Mass, the next important expression of the equation. There's a difference between an object’s Weight and Its Mass. The way I finalized describe it, can never go wrong. Of the same object, Weight is equal Mass, only when the object is at rest condition. It means the Mass of an object can vary depending on different scenarios while the known weight of it remains the same. In summary Mass of a body is defined by the products of all forces acting on the body (Internally and Externally).

Real case #3 Another well-known situation is what’s called weak nuclear force which’s relatively strong holding for a small amount of mass, here is the small value of r in the same equation will increases the overall result for F_((g) ) the holding force between Electron and its Nuclei.

Since the G is varies depending on each medium, if we model Newton's Gravity Equation as a working solution, further we can expand some parts of the equation for a better evaluation of component. Considering the cases where this equation applies, “r” representing the distance of tow related objects from the center to center. Let picture the case between the Sun and the Earth. We can break the distance to three distinct sections related to three distinct mediums. If G considered being consists of three different Medium known by: G_(S )= G related to Sun G_(E )= G related to Earth		G= (G_(S )+G_E+G_v)/3 G_(v )= G related to vacuum space

r_(E=distance related to Ear〖th〗^' s medium) (G_E) r_(S=distance related to Sun's medium) (G_S) r_(v=distance related to vacuum space medium) (G_v) Considering these assumptions, you can rewrite the equation as:

Fg=G/r^2 ×Mm where G/r^2 = ∑_1^n▒G_n/〖r_n〗^2 F_((g)=) [G_E/〖r_E〗^2 + G_v/〖r_v〗^2  + G_S/〖r_S〗^2 ]×M.m

The further you divide to different medium the more specific G value can be assigned to a specific structure and elements till the purity of solids.

Further, you may have a more accurate expression within each distinct medium by using calculus for a more precise value of G at any given point.

F_((g))=M.m×[ ∫_0^(r_E)▒〖〖G_E〗_n/(〖r_E〗_n^2 ) dg/dr〗 + ∫_(r_E)^(r_S)▒〖〖G_v〗_n/(〖r_v〗_n^2 )  dg/dr〗 + ∫_0^(r_S)▒〖〖G_S〗_n/(〖r_S〗_n^2 )  dg/dr〗  ]

Graviton

What to be considered as fundamental forces to create gravity force lays within two fundamental charges, Electron for _ev charge and Positron for +ev charge. The attraction force between these two opposite charges results in part of the overall of the gravity particle, called Graviton. The rest is the result of force created due to the rotation of these particles which is the kind of magnetism.

At present fundamental forces known by science consist of four forces: Strong forces, weak forces, electromagnetism, and Gravity. Here I want to classified forces differently according to their effectiveness on other aspects of physic and applications. For that, I'm putting the strong forces aside since the effectiveness comes more through weak forces to other parts of physics. Also since Gravity is known as the products of other fundamental forces, can be put aside.

Starting by simple observation to available subatomic I can classify to fundamental charges of the same magnitudes but opposite in their charge: Positron for +ev smallest charge Electron for -ev smallest charge Considering nuclei having proton of a +1eV relative to its neutron attracting an electron of a -1eV known as weak force can be one of the fundamental forces in physics but to quantify the force correctly should consider the case of the two fundamental charges when they are at rest where wouldn't fulfill the whole value of the weak forces. Another part comes due to the spinning of electron and proton resulting in a magnetic force between to complete the weak force holding which is holding an electron rotating on orbit.

Weak force here can be divided into two fundamental forces = Force from opposite charges Fe + force from magnetic generation Fm F_E=ke (q_E.q_P)/r^2 E= k_e q/r^2 Fm= q_1 E ⃗_1+ q_2 E ⃗_2+q_1 v ⃗_1 xB ⃗

In summary, we can see two fundamental changes. Having the atomic arrangement of those results into two distinct types of forces, one resulted from opposite charges and the other from opposite magnetic poles creation due to their spins. Perhaps what can be expected to be Graviton, is the summation of these two fundamentals at subatomic scales.

(Gravity symbol ⊕)

⊕=Fe+Fm ⊕= ke (q_E.q_P)/r^2 + q_E E ⃗_E+ q_P E ⃗_P+q_E v ⃗_E xB ⃗