Mass Transport by the Acceleration of Light and not the Photon

Subtitle: Mass Transport in the Atomic World

Author’s Note: This scientific article which describes mass transport by the acceleration of light is based on the new conceptual framework of absolute relativity. This new conceptual framework is as simple as special relativity, their only difference is in interpretation.

In this article, I want to simply explain according to the subtle laws of post-modern physics a simple thought experiment in modern physics about the transport of mass. In special relativity, there is a thought experiment which investigates the transport of mass from one end of a box to another end. 

In this simple thought experiment, the light source loses mass as it emits light, and this lost mass is later gained when the emitted light is absorbed at the other end of the box. In this article, I want you to see the true encompassing understanding of this simple thought experiment.

First of all, special relativity, borrowing the central thesis of quantum mechanics explains this simple experiment to be as a result of the photon and the conservation of momentum. You know already that in quantum mechanics the photon is a massless particle which comprises light. 

Now, in post-modern physics, which reveals to us the way of the unified field, this simple experiment is interpreted based on the acceleration of light (and not the photon) and on the conservation of force (and not the conservation of momentum). 

I want you to know that while momentum is associated with the speed of light outside the atom, force is associated with the acceleration of light inside the atom. Now, let’s begin.

Mass Transport

The Transport of  Mass by the Acceleration of Light

The above is a box of length ΔL and mass m at rest on a frictionless surface. This whole thought experiment is now being performed in the atomic world. If an acceleration of light of energy in Joules/s2 Ea = mac2  is emitted from one end of the box above and is absorbed by the other, what is the reaction of the box?

N. B: In the above diagram, the delta symbol Δ is used to indicate accelerated space.

You know from this blog and from post-modern physics that an acceleration of light of energy Ea carries force Ea/ac, so to conserve force, the emission of (an acceleration) light must cause the box to slide backwards at an acceleration a given by the relation below,

ma=-\frac{E_{a}}{a_{c}}\;.\;\;\;.\;\;\;.\;\;\;.\;(1)

The acceleration of light is now absorbed at tau time  later, and the box must stop moving so as to once again to conserve force. In tau time , the box moves a distance in accelerated space,

\Delta x_{b}=a\.d \tau=-\frac{E_{a}}{ma_{c}}\;d \tau \;.\;\;\;.\;\;\;.\;\;\;.\;(2)

and then stops, while the photon moves a distance ∆xp (which is not indicated in the diagram above)

\Delta x_{p}=a_{c}\.d \tau=\Delta L-\frac{E_{a}}{ma_{c}}\;d \tau \;.\;\;\;.\;\;\;.\;\;\;.\;(3)

and then gets absorbed. If you are familiar with post-modern physics, you will already know tau time is the true experience of time in the atomic world. In The Theory of the Universe: Absolute Relativity, you will understand the difference in the experience of time outside and inside the atomic world.

In this scientific article, I am simply interpreting mass transport by the acceleration of light aby incorporating the absolute natures of space and time and the relative natures of light. This is permissible because of the new scientific method.

Now, because the forces associated with the emission and absorption of the acceleration of light are totally internal to the box, we do not expect them to be able to transport the center of mass of the box. The center of mass of the box remains stable.

But because the box moved, the center of mass can only have remained at rest if the acceleration of light transported some mass µ from one end of the box to the other. To preserve the center of mass, the ratio of masses, µ/m must be equal to the ratio of their displacements ∆xb /∆xp,

So, 

\frac{\mu}{m}=\.\frac{\Delta x_{b}}{\Delta x_{a}}

Substituting the expression for ∆xb and ∆xp from equations (2) and (3) we have that,

\frac{\mu}{m}=\.\frac{a \:d\tau }{a_{c}\:d\tau}

Tau time cancels, and the mass µ transported by the acceleration of light after also substituting the expression for acceleration a from equation (1) becomes,

\mu=m\.\frac{\Delta x_{b}}{\Delta x_{a}}=\frac{E_{a}}{a_{c}\:^{2}}\;.\;\;\;.\;\;\;.\;\;\;.\;(4)

The transmission of the acceleration of light ac thus transports a mass µ = Ea/ac2  from A to B inside the box. This shows you that when light with acceleration aand of energy Ea is emitted, the emitter loses mass ∆m = Ea/ac2 and when it is absorbed the absorber gains mass ∆m = Ea/ac2.

I want you to realize the implication of replacing the photon of light in quantum mechanics with the acceleration of light of post-modern physics. All the effects in the atomic world which are attributed to the photon of light are all due to the fact that accelerates in the atomic world, while it does not accelerate outside the atomic world. 

hostgator

Outside the atom, light travels at a constant speed. So, outside the atom, the above expression for the transport of mass by the acceleration of light becomes that for the transport of mass by the constant speed of light.

Thus, the above equation (4) outside the atom translates as,

\mu}=\frac{E}{c\:^{2}}\;.\;\;\;.\;\;\;.\;\;\;.\;(5)

The above expression is similar to that of special relativity, but it differs in its limited application only outside the atom. In special relativity, the above equation is wrongly taken to apply both inside and outside the atomic world. 

From the above two equations, you can see how the acceleration of light ac carrying energy Ea in Joules/s2 alters outside the atom to be the speed of light c carrying energy E in Joules.

The above equation for the transport of mass represents how the phenomenon would be observed by a (ponderable) observer outside the atomic world. The above two equations (4) and (5) prove and show the real interface between an observer outside the atom and the atomic world due to the changes in the essence of light.

The equations (4) and (5) show you that in the atomic world, mass and energy in Ea in Joules/s2 are interconvertible by the acceleration of light ac, whereas outside the atomic world, mass and energy in Joules are interconvertible by the speed of light c

Mass is interconvertible with two forms of energy and not one form of energy as standard physics has always taught you. This is a paradigm shift necessary for the true understanding of the cosmos.

Mass is interconvertible with two forms of energy and not one form of energy.Click To Tweet

It is evident that what I am teaching you is a new kind of scientific knowledge, so I want you to take your time and go through my articles in this blog and also get my e-book so that your understanding of this new science will increase.

In the atomic world, light no longer carries energy in Joules, rather it carries the second form of energy in Joules/s2. I hope to enlighten you completely and in this blog about these two forms of energy in the universe. I want you to be a part of this movement towards an ever increasing understanding of the universe

Atom

An Atom

I really believe you can see how your understanding of the universe and the quantum world changes in this article. I have explained the transport of mass both inside and outside the atomic world using the same conceptual framework. 

This conceptual framework is Absolute Relativity. This explanation of the transport of mass in the atomic world was culled from this new conceptual framework which shows you how the universe maintain Euclidean geometry for all reference frames, and in both the electrical and ponderable universes. 

The unified understanding of the universe is now available for you and me. The different particle bundles of photons in quantum mechanics, in reality, are simply different values or magnitudes of the acceleration of light. 

Quantum mechanics has been a mystery to us for so long because we did not know that light accelerates inside the atom. We had wrongly thought that in a weird way light becomes or behaves like a particle in the atomic world. 

Quantum mechanics has been a mystery to us for so long because we did not know that light accelerates inside the atom.Click To Tweet

No, light never becomes a particle of any kind inside the atom. Light simply becomes an accelerating wave inside the atom. On this simple and insightful realization lies the post-modern understanding of the atomic world and the transport of mass in the atomic world which I am showing in this great scientific article.

Inside the atomic world, light transports mass by energy in Joules/s2, while outside the atomic world, light transports mass by energy in Joules. In post-modern physics, we are able to penetrate the true nature of the atomic world, and the energy in Joules/sis the peculiar energy of atomic physics.

Finally, this article reveals to you satisfactorily and according to the subtle laws of post-modern physics, that in the atomic world, mass is transported by the acceleration of light due to the interconvertibility of mass and energy in Joules/sand not due to the photon.

Let’s begin to investigate the two forms of energy in the universe and the two relative natures of light.

The universe is simple.

Until next time.

I remain your friend,

– M. V. Echa



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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!