Light and the Absolute Relativity of Force and Momentum

Preliminary

The physical quantities, force, momentum and energy are the cornerstones of physics. Since Isaac Newton set forth in the Principia how we should understand these quantities, they have served in that fashion until today.

In the nature Newton presented them, they are solely quantitative. They do not arise or bear any relationship to the qualitative nature of the universe. This is a crucially missing aspect of mechanics.

I want to show you in this scientific article how this missing aspect of mechanics, with regards to force and momentum, changes in a fundamental way your understanding of motion and the universe. What I am about to show you will completely push you away from the Newtonian worldview into the new paradigm of post-modern physics.

First of all, what is the Newtonian paradigm that we must abandon? The Newtonian paradigm that we must abandon is the one that indiscriminately generalizes the three quantities, momentum force and energy, to ponderable and electrical bodies without regard for their fundamental differences.

We have been taught to indiscriminately apply momentum, force and energy to both ponderable and electrical bodies without knowing that there are limits to the application and experience of these quantities in the universe.

If you look at classical and modern physics, you will find that momentum of the form below is applied indiscriminately to both ponderable (non-charged) bodies and also to electrical (charged) bodies.

p*=mv*

Note: The asterisk is used to show that we are dealing with quantities of classical and modern physics and not those of post-modern physics.

You will realize that the momentum equation of the kind above is the only form of momentum in classical and modern physics and it applies to all bodies. This error as you will realize arises because of the solely quantitative nature of classical and modern mechanics.

When you begin to understand the qualitative nature of the universe, you will find out that there are kinds of momentum in the universe and that we cannot apply momentum to electrical bodies.

All of physical science which is what physics had been about is based on the conceptualization which only describes space and time without any regard to their qualitative nature.

The conceptualization is not concerned about the different forms of space and time, from which even the different forms of the quantities of physics, referring especially to momentum (and energy) arise.

In post-modern physics, we come to this great scientific truth that the universe has two forms of space and time. This great truth is captured as the great conceptualization. The true understanding of the universe begins with the understanding of the great conceptualization.

The true understanding of the universe begins with the understanding of the great conceptualization.Click To Tweet

It is the true mathematical foundation of the universe and of post-modern physics. As you begin to come to terms with the great conceptualization, you will realize how it radically changes everything, and even I myself must say that as time goes on, we will understand it better.

From the conceptualization which is non-qualitative, we have two physical quantities which are speed and acceleration and they are indiscriminately applied to both ponderable and electrical bodies. Newton taught us that ponderable and electrical bodies can carry either speed or acceleration depending on their state of motion.

This kind of physics or understanding no longer follows us into post-modern physics. What I am about to show you in the next three sections will reveal to you how the principles of dynamics change in post-modern physics due to the qualitative nature of the universe.

hostgator

From the great conceptualization which is both qualitative and quantitative, we have three absolute quantities which are absolute uniform velocity, absolute accelerated velocity and absolute acceleration and they discriminately apply to ponderable and electrical bodies.

I will show you how the three mentioned absolute quantities above apply respectively to force and momentum and these three different absolute quantities apply to ponderable and electrical bodies according to the principle of inertia and the principle of non-inertia as shown thus:

  1. Ponderable (non-charged) bodies in uniform motion carry the absolute uniform velocity and are governed by the principle of inertia.
  2. Ponderable (non-charged) bodies in accelerated motion carry the absolute accelerated velocity and are governed by the weak phase of the principle of non-inertia.
  3. Electrical (charged) bodies which can only experience accelerated motion carry the absolute acceleration and are governed by the strong phase of the principle of non-inertia.

The above shows you how you should understand the motion of bodies according to the absolute laws of the universe. For each of the three variants of motion in the universe, there is an associated absolute principle.

For each of the three variants of motion in the universe, there is an associated absolute principle.Click To Tweet

Due to the qualitative nature of the universe, you must not crisscross the three absolute quantities and principles to ponderable and electrical bodies. The three absolute quantities and principles are exclusive in their respective domains as listed above. This is important.

Also, the new understanding of force and momentum to be presented in this article comes with a new understanding of the absolute nature of light which has been the focus of some of my articles.

They are strongly associated with the absolute nature of light in the manner to be discussed shortly. I want you to take note of all these things because they will not only help you understand absolute relativity but also how post-modern physics approaches the conceptual problems of science and the study of natural phenomena.

It is important that this scientific article speaks only of light and how it underlies the absolute relativity of force and momentum. This is because there is another non-mechanical wave in the universe which is called the gravi-electromagnetic wave or the G-wave (just as light or the electromagnetic wave is called the E-wave).

So, we can also talk about the gravi-electromagnetic wave and the absolute relativity of force and momentum but that would be for a future scientific article.

Now, let me proceed to show you how to understand force and momentum according to absolute relativity which is the true conceptual framework upon which the universe was designed. 

Ponderable Bodies in Uniform Motion

According to absolute relativity, ponderable bodies in uniform motion are governed by the absolute principle of inertia and for ponderable bodies in uniform motion, we have specially the absolute 4-momentum which is presented in the equation (1) below:

p=\alpha\.m\.v\:\;.\;\;\;.\;\;\;.\;\;\;.\;(1)

In the equation above, p is 4-momentum, α is the luminal inertial factor, m is for mass and v without asterisk represent the absolute uniform velocity.

The luminal inertial factor is expressed as, \alpha=\:\delta (1-\beta)\:^{-\frac{1}{2}} , where \beta=\frac{v^2}{c^2}; and when substituted into the above equation, we get that, 

p=m\.v\:\delta (1-\beta)\:^{-\frac{1}{2}}\;.\;\;\;.\;\;\;.\;\;\;.\;(1a)

Expanding the above by binomial theorem, we get the result below,

p=\delta\.m\.v+\frac{1}{2}\delta \.m\frac{v^2}{c^2}\.v+\frac{3}{8}\delta \.m\frac{v^4}{c^4}\.v+\frac{5}{16}\delta \.m\frac{v^6}{c^6}\.v+\;.\;\;\;.\;\;\;.\;\;\;.\;(1b)

You must understand that light c above is the least resistance to uniform motion and that it is the first absolute nature of light that the absolute uniform velocity v is inseparably attached to. Light c above is not the speed of light as understood in modern relativity which is focused on the relative nature of light.

Now, in the limit where the absolute uniform velocity v2 is small, that is very greater than the inertia of light, the above reduces to

p=\delta\.m\.v\;.\;\;\;.\;\;\;.\;\;\;.\;(1c)

The above is the least form of the absolute 4-momentum of a ponderable body in uniform motion. It looks like the classical momentum and the 4-momentum of special relativity, but it is different from them due to its qualitativeness and absolute background as absolute 4-momentum p above is directly equal to mass m times the absolute uniform velocity v.

The delta number δ found above is equal to one but it is however left in the presentation of the least form of the absolute 4-momentum above because of its relevance in the understanding of the relativity of uniform frames.

Now, let’s proceed to the absolute relativity of accelerating ponderable bodies. 

Ponderable Bodies in Accelerated Motion

According to absolute relativity, all accelerating ponderable bodies are governed by the weak phase of the principle of non-inertia and for ponderable bodies in accelerated motion, we have specially the absolute 5-momentum which is presented in the equation (2) below:

p_{a}=\alpha_{p}\.m\.v_{a}\:\;.\;\;\;.\;\;\;.\;\;\;.\;(2)

In the equation above, pa is 5-momentum, αp is the luminal non-inertial factor, m is for mass and va represents the absolute accelerated velocity.

The non-luminal inertial factor is expressed as, \alpha_p=\:\delta_c (1-\beta_c)\:^{-\frac{1}{2}} , where \beta_c=\frac{v_a^2}{c^2}; and when substituted into the above equation, we get that, 

p_{a}=m\.v_{a}\:\delta_{c} (1-\beta_{c})\:^{-\frac{1}{2}}\;.\;\;\;.\;\;\;.\;\;\;.\;(2a)

Expanding the above by binomial theorem, we get the result below,

p_{a}=\delta_{c}mv_{a}+\frac{1}{2}\delta_{c}m\frac{v_{a}^2}{c^2}v_{a}+\frac{3}{8}\delta_{c}m\frac{v_{a}^4}{c^4}v_{a}+\frac{5}{16}\delta_{c}m\frac{v_{a}^6}{c^6}v_{a}+\;.\;\;\;.\;\;\;.\;\;\;.\;(2b)

Also, you must understand that light c above is the maximum resistance to accelerated motion and that it is this second absolute nature of light that the absolute accelerated velocity va is inseparably attached to.

Now, in the limit where the absolute accelerated velocity va2 is small, that is very lesser than the inertia of light, the above reduces to

p_{a}=\delta_{c}mv_{a}\;.\;\;\;.\;\;\;.\;\;\;.\;(2c)

The above is the least form of the absolute 5-momentum of a ponderable body in accelerated motion. It looks like the absolute 4-momentum above, but it is different from it due to its qualitativeness as absolute 5-momentum pabove is equal to mass m times the absolute accelerated velocity va

The delta number δc found above is equal to one but it is also left in the presentation of the least form of the absolute 5-momentum because of its relevance in the understanding of the relativity of accelerated frames even in this special case.

Electrical Bodies in Accelerated Motion 

According to absolute relativity, the motion of all electrical bodies is governed by the strong phase of the principle of non-inertia and for electrical bodies in accelerated motion, we have specially the absolute force which is presented in the equation (2) below:

F=\alpha_{e}\.m\.a\:\;.\;\;\;.\;\;\;.\;\;\;.\;(3)

In the equation above, F is absolute force which is different from Newtonian forceαe is the luminal non-inertial factor for electrical bodies, m is for mass and a represents the absolute acceleration of an electrical body.

The non-luminal inertial factor is expressed as, \alpha_e=\:\delta_a (1-\beta_a)\:^{-\frac{1}{2}} where \beta_a=\frac{a^2}{a_c^2}; and when substituted into the above equation, we get that, 

F=m\.a\:\delta_{a} (1-\beta_{a})\:^{-\frac{1}{2}}\;.\;\;\;.\;\;\;.\;\;\;.\;(3a)

Expanding the above by binomial theorem, we get the result below,

F=\delta_{a}ma+\frac{1}{2}\delta_{a}m\frac{a^2}{a_c^2}a+\frac{3}{8}\delta_{a}m\frac{a^4}{a_c^4}a+\frac{5}{16}\delta_{a}m\frac{a^6}{a_c^6}a+\;.\;\;\;.\;\;\;.\;\;\;.\;(3b)

You must understand that the acceleration of light ac above is the least vertical resistance to accelerated motion and that it is this third absolute nature of light that the absolute acceleration a is inseparably attached to.

The entire idea of the constant speed of light does not exist in the atomic world of electrical bodies and even the acceleration of light which does is only a relative description of light. The absolute nature of light for all bodies, whether ponderable or electrical, is described only in relation to inertia. This is what has been duly followed in this scientific article.

The absolute nature of light for all bodies, whether ponderable or electrical, is described only in relation to inertia.Click To Tweet

Now, in the limit where the absolute acceleration a2 is small, that is very greater than the inertia of the acceleration of light, the above reduces to

F=\delta_{a}ma\;.\;\;\;.\;\;\;.\;\;\;.\;(3c)

The above is the least form of the absolute force of an electrical body in accelerated motion. It wants to look like Newtonian force, but it is different from it due to its qualitativeness and absolute background as absolute force F is equal to mass m times absolute acceleration a

The delta number δa found above is equal to one but it is also left in the presentation of the least form of absolute force because of its relevance in the understanding of the relativity of accelerated frames in this special case for electrical bodies.

Crucial Discussion

It may seem like I have hurriedly presented the new understanding of force and momentum above. This is only because I want you to understand that force and momentum apply distinctly to ponderable bodies and electrical bodies in the exact simple manner that they have been presented above.

Before now we did not speak qualitatively about the relativity of momentum which will show us how framework of relativity is applied to the two kinds of momentum in the universe as shown above and worse still is that we don’t speak about the relativity of force at all and in the special manner in which it is presented above.

These conceptual errors cannot in any way be overlooked, and today, they have been rectified by the theory of the universe.

The conceptual analogy of the absolute quantities as presented above can only be found in special relativity but in special relativity, we are only talking about how relative 4-momentum applies to uniform frames.

There is no extension of the same procedure to accelerated frames and there is no distinction made between the motions of ponderable bodies and those of electrical bodies. In other words, special relativity is not general and it makes no reference to the three variants of motion in the universe.

The former oversight which is that special relativity is not general may seem obvious since special relativity is only concerned about uniform frames. But the elucidations so far show that the mathematical framework of special relativity had the capacity to represent accelerated frames in the like manner that uniform frames were represented.

This is why I usually talk about why special relativity is special and how it is the only classical theory that could have led us to the fundamental theory and in a  way it already has.

From the above elucidations of force and momentum, we are looking at how these quantities apply to the motion of bodies as determined by absolute relativity which the true conceptual framework to understand these things.

And according to this great theory, ponderable bodies in uniform motion carry absolute 4-momentum while ponderable bodies in accelerated motion carry absolute 5-momentum and also that electrical bodies in accelerated motion carry absolute force.

In understanding these things, you will begin to understand the quality of motion and how we can no longer indiscriminately apply these absolute quantities to the motions of both ponderable and electrical bodies. (Read my article below on the foundation of absolute motion. It will assist you to understand this article.)

Also, these three absolute quantities, 4-momentum, 5-momentum and absolute force, are accompanied by changes in the absolute essence of light as discussed above. Light does not maintain one essence for the three absolute quantities. This is very important.

For the absolute 4-momentum p, light is the least resistance to uniform motion, while for the absolute 5-momentum pa, light is the maximum resistance to accelerated motion, and for absolute force F, light is the least vertical resistance to accelerated motion all the while knowing that in the case of absolute force we are referring to the acceleration of light.

I want you to understand what I am revealing to you in this article for it is the mystery of the universe long hidden from classical and modern physics which cannot in any way access these things.

This is because they are not absolute science and they know nothing about the absolute nature of the universe. Special relativity based only on the speed of light and knowing nothing about the acceleration of light could not guess even in a superficial manner how absolute force applies relativistically to accelerating electrical bodies.

So, absolute relativity and this scientific article have come as corrections of special relativity and not of general relativity which with the understanding of the above and the further understanding of absolute relativity is an irredeemable wrong picture of the universe.

It is important to see from this article how relativity, that is absolute relativity, is the true conceptual framework by which we can understand the universe. This is why this article strongly exposes the conceptual errors in special relativity and the irrelevance of general relativity.

The application and the understanding of force and momentum have changed as presented in this article. They are no longer solely quantities, they are now also qualities. This is why it is easy to see that only absolute momentum applies to ponderable bodies while absolute force applies to electrical bodies.

We must also take note of how the term “absolute” is attached to force and momentum. This is so that we can importantly distinguish them from relative momentum and relative force which are the kinds classical physics talks about.

So, know that the momentum and the force we are addressing in this scientific article are different and they are founded on absolute motion and they describe the metaphysical universe and not the physical universe we are used to.

We all must come together, and I mean every scientist and theoretical physicist today. The subtle laws of the universe have become revealed to us and we must be very attentive to them in a manner we weren’t before about physics. This is partly why I established this blog.

It is very difficult and almost impossible to understand the new science without some gradual and well-crafted introduction to its foundation. This is because we have become very used to a kind of science, relative science, that is not the true science of the universe.

So, this blog is here to greatly assist you in understanding the new science and how it underlies the universe. My scientific articles in this blog will liberate you from the shackles of the old science and show you the final illumination of all things. 

You must be careful not to interpret or see the equations above like you see the other equations of classical and modern physics. This is because the above equations are interpreted based on absolute relationism which is the new philosophy.

So, absolute relationism is the new and right way to interpret the equations above as shown in this scientific article and it is evidently unlike how they would have been interpreted following classical physics and modern physics that are interpreted based on relationism or in rare cases, absolutism.

And it is this new method of interpretation based on absolute relationism and the accompanying equations that give us the proper understanding of the universe and the new picture of reality.

You must understand that these post-modern equations emerge from a new kind of science, absolute science, and that this new kind of science is hidden from classical and modern physics. 

Conclusion

I must once again let you know that the contents of this article were extracted from absolute relativity which is the subtitle of the treatise titled: The Theory of the Universe. So,  you cannot by this article alone understand it all or see the whole picture.

Having realized this, it is then important to know that this scientific article informs us about how force and momentum apply in the universe and to the motion of ponderable and electrical bodies.

And as we have been informed, the absolute 4-momentum applies to ponderable bodies in uniform motion, the absolute 5-momentum applies to ponderable bodies in accelerated motion while the absolute force applies to electrical bodies in accelerated motion.

The above evidently shows that according to absolute relativity and in this post-modern era of physics, we shall rightly understand force and momentum according to how they qualitatively apply to the three variants of motion in the universe.

Until next time,

I will be here. 

– M. V. Echa



M. V. Echa

M. V. Echa

My message is the universe, my truth is the universe, and this blog contains all you need to know about the universe, from the true nature of reality to the long-sought unity of the cosmos — which is the big picture!