Addressing the Queries Against the Post-modern Theory of Electromagnetism

Preliminary 

The central argument of post-modern electromagnetism against classical electromagnetism can be presented thus: Whenever bodies move, like an electron or a proton, it can only be due to undivided light and not either an electric field or a magnetic field as classical physics proposes.

So, when we look at the translation or the rotation of an atomic particle like an electron, we are forced to see that both motions are caused by undivided light; and whenever there is an alignment of the translation of an electron or a group of electrons in one direction, we say that electricity occurs; and whenever there is an alignment of the rotation of an electron or a group of electrons in one axis, we say that magnetism occurs.

A good look at the above post-modern explanation of electromagnetism shows us how it makes no reference to the concepts of electric and magnetic fields. It implies that electricity and magnetism are now mechanistic phenomena and are no longer electrodynamical as Maxwell taught us.

It must be said again that in post-modern physics, the assertion that light is an electromagnetic wave has only mechanistic meaning and is now devoid of its former electrodynamical meaning or interpretation.

That is, light is now an electromagnetic wave only as it causes the aligned translation of an electron or electrons in one direction, which is electricity, and as it causes the aligned rotation of an electron or electrons in one direction, which is magnetism.

The reference to light as an electromagnetic wave internally consisting of the electric field and the magnetic field is no longer regarded in post-modern physics. Electromagnetism no longer applies to the internal nature of light.

The reference to light as an electromagnetic wave internally consisting of the electric field and the magnetic field is no longer regarded in post-modern physics.Click To Tweet

Also, another important point to note is that in post-modern physics, an electrical body is simply another term for an atomic particle; it in no way implies or relates to the electric field which it once had a relationship with in classical physics.

I usually use the term electrical body or bodies to mean bodies that exist inside the atomic world and/alongside ponderable body or bodies which are bodies that exist outside the atomic world.

Introduction

The greatest task of any attempt to unify two seemingly disparate entities or phenomena is to show how similar they are to the greatest possible extent. This is a summary of what post-modern physics has done that has now changed forever how we understand the nature of light and its interactions with atomic particles.

In this very great scientific article, I want to address the queries or skepticisms that the new post-modern theory of electromagnetism has produced. For now, I will be addressing two of the queries, but I believe that more may arise as post-modern physics unfolds, even you could raise up a query against post-modern electromagnetism.

So, this scientific article may need to be updated as more queries may arise in the future; however, the two queries that are to be addressed in this article are of an absolute fundamental nature that I think if addressed will also go a long way to help address other future queries that may arise against the post-modern theory of electromagnetism.

You may wonder why I am interested in the possible queries against post-modern electromagnetism. It is obvious that it is because post-modern electromagnetism informs us that light in its internal nature is not an electromagnetic wave.

This assertion or discovery by post-modern physics is far reaching as it confronts and seeks to change what we have known so far about the fundamental nature of light and I am very conscious of this move by post-modern physics.

hostgator

It is not like there are no other revolutionary ideas in post-modern physics, there are a lot of them, but this one about the non-electromagnetic nature of light is special in a way that commands our full attention.

One thing is: can we really avoid this conceptual revolution about light? I have thought about this and I think that we cannot because every truth matters.

The First Query

So, let’s begin with the first query against the post-modern theory of electromagnetism:

The First Query: How is the electric charge described in post-modern electromagnetism remembering that in classical electromagnetism it was associated with the electric field which post-modern electromagnetism now denies? 

How post-modern physics addresses the above query can be seen in some of my scientific articles, but I have decided to raise it up in this article because of the fundamental importance of it and also because I want us to really become aware of how post-modern physics describes the electric charge.

Firstly, it is easy to think that the electric charge consequently connotes or imply the electric field but in post-modern physics, this association does not follow. Rather, in post-modern physics, the electric charge is associated with light or the electromagnetic field and not the electric field, taking note of the post-modern meaning of electromagnetism.

In post-modern physics, the electric charge is associated with light and not the electric field.Click To Tweet

In the classical theory of electromagnetism, you will see the depiction of an electrical body like an electron having a negative charge and that this negative charge produces a negatively charged electric field E that emanates and surrounds the electron.

Any other electrical body, such as another electron or a proton that comes close to the electron referred to above will be influenced by this negatively charged electric field.

But in the post-modern theory of electromagnetism, you will see the depiction of an electrical body like an electron having the charge e2 which has lost its negative or positive meanings and that is now subsumed as a component of the acceleration of light and that this electron produces an electromagnetic field that emanates and surrounds the electron.

For further details, in post-modern electromagnetism, the electron is the pole of the greater acceleration of light, so it is surrounded by a field of the greater acceleration of light ac>. Any other electrical body, such as another electron or a proton that comes close to the electron referred to will be influenced by this field of the greater acceleration of light.

The figure below depicts the electron and the nature of its surrounding field in classical and post-modern physics and as discussed above.

the electron in classical and post-modern physics

So, while in classical electromagnetism, the electron is surrounded by a negatively charged electric field, in post-modern electromagnetism, the electron is surrounded by a field of the greater acceleration of light.

And while in classical electromagnetism, the proton is surrounded by a positively charged electric field, in post-modern electromagnetism, the proton is surrounded by a field of the lesser acceleration of light.

In both cases of the electron and the proton, we discover in the post-modern theory of electromagnetism that they are surrounded by light and not either a negatively charged electric field or a positively charged electric field.

The electric field has been absolved in post-modern physics of its responsibility for the interactions of electrical bodies like the electron and the proton.

Only light in its undivided nature can cause the interactions of electrical bodies, and when I speak of the undivided nature of light, I am referring to its internal nature as an inertiatic wave and not as an electromagnetic wave.

You would already understand this if you have been following my teachings on the post-modern theory of electromagnetism and also if you understand the foundation of absolute physics.

So, in post-modern electromagnetism, the electric charge or preferably charge is defined as the electromagnetic content of an electrical body. We may have suspected in classical physics that the charge of a body should be related to light, but we did not show this connection.

Rather, classical physics established the relationship between the electric charge and the electric field, but in post-modern physics, we discover this connection between charge and light without any ambiguity, and what should preferably be referred to as the electromagnetic charge (and not the electric charge) is related to light itself.

Also, the post-modern theory of electromagnetism goes further to show us how light itself governs the interactions of electrical bodies and not the electric field. How light governs the interactions of electrical bodies is what the concepts of the lesser and the greater accelerations light show you.

Now, through the post-modern theory of electromagnetism, we find a remarkable similarity between light and gravity or between the electromagnetic interaction and the gravitational interaction which was not evident before.

Listen: when we study gravitational interactions, we see how gravity, undivided gravity, influences and causes the interactions of bodies. Now also in our study of electromagnetic interactions, we see how light, undivided light, influences and causes the interactions of electrical bodies.

This similarity is profound, for more than anything else, the post-modern theory of electromagnetism is showing us how light is not different from gravity or how the electromagnetic interaction is not different from the gravitational interaction.

And this similarity goes further to produce another similarity that is related to how bodies come into interaction, whether for the electromagnetic interaction or for the gravitational interaction.

This second similarity is that all bodies, whether electrical or ponderable bodies and whether for the electromagnetic interaction or for the gravitational interaction, come into interaction by their masses. That is, all bodies come into interaction by their masses.

All bodies come into interaction by their masses.Click To Tweet

During electromagnetic interaction, two electrical bodies come into interaction by the ratio of their masses, while during gravitational interaction, any two bodies come into interaction by the product of their masses.

The above variations in how mass comes into electromagnetic and gravitational interactions are what make the assertion possible, that all bodies come into interaction by their masses. This profound insight shows us how mass is involved both in the electromagnetic interaction and in the gravitational interaction.

That all bodies interact by their masses is an indispensable understanding of the unity of electromagnetic interaction and gravitational interaction or of light and gravity.

What this all means is that the electric charge is not the means by which electrical bodies come into interaction, and this is partly the reason why it is now taken as a quantity with square magnitude in post-modern physics. I will like you to read this my scientific article about this adding the reason stated in this paragraph to it.

Also, as shown from the above diagram, you will see that while in classical electromagnetism, the pole of the electron is defined by charge e, which is negative, in post-modern electromagnetism and due to the importance of mass, the pole of the electron is defined by the acceleration of light, which is the greater acceleration of light ac>.

In post-modern physics, we find the general importance of mass for both the electromagnetic interaction and the gravitational interaction.

As a result, in post-modern electromagnetism, we have a more encompassing meaning of polarity which subsumes even the concept of charge, and the polarity of an electrical body is not directly dependent on the (charge of the) particle but on the field.

In other words, it can be said that in the post-modern theory electromagnetism, we have the concept of field-based polarity that is represented by the acceleration of light and not the concept of particle-based polarity that is represented by charge.

In the post-modern theory electromagnetism, we have the concept of field-based polarity and not the concept of particle-based polarity.Click To Tweet

This encompassing meaning or description of polarity now found in electromagnetic interaction is also found in gravitational interaction.

A child and light

In our study of gravity or gravitational interaction, we have no idea of particle-based polarity but only of field-based polarity which we denoted as g, and which was the acceleration of a body due to gravity, but which has now been corrected, or preferably, in this context, extended to represent the acceleration of gravity in post-modern physics.

So also in our study of electromagnetic interaction, we now have only the field-based polarity, which is denoted as ac and which is the acceleration of light. We now have the field based polarity for both gravitational and electromagnetic interactions and this similarity between light and gravity goes a long way to show us how true the post-modern theory of electromagnetism is.

It is therefore important to see that from the resolution of the first query, we arrive at three hitherto undiscovered similarities between the electromagnetic interaction and the gravitational interaction or between light and gravity, which are presented thus:

1. For the electromagnetic and the gravitational interactions, light and gravity are both respectively undivided.

2. For both the electromagnetic and the gravitational interactions, bodies come into interaction by their masses.

3. For both the electromagnetic and the gravitational interactions, we have the concept of field-based polarity.

The Second Query

Now, let’s discuss the second query.

The Second Query: If as post-modern physics informs us, light is what surrounds an electrical body or a magnetic body, why then is there no evidence of light around an electrical body and especially around a magnet?

From the above, you will see that the emphasis is more on the magnet even though it is also on the electrical body.

Now, to understand this query, which is very interesting! Post-modern physics informs us that the field around a magnet is light or an electromagnetic field and not a magnetic field. If this is true, why don’t we see light around a magnet?

Light has so many spectra of which visible light is one of them. So, if light is what is around a magnet, we should see it at some point or around some magnets, and even if the spectrum is not the visible one, any other spectrum of light is detectable, whether the infra-red or the ultra-violet spectrums.

This second query is probably the first query one recognizes against the post-modern theory of electromagnetism. I have also thought about it for some time now.

Why don’t we detect light around a magnet? The same applies to an electrical body, but it is easy to accept that light could be what is around an electrical body, but to extend this same conclusion to a magnet raises the whole skepticism against the post-modern theory of electromagnetism.

Now, to understand how light can be around a magnet, and yet be invisible and not directly detectable, we have to also look at gravity. When we look at the Solar System, we are seeing the effects of gravity on the planets but gravity is invisible.

The same reason why gravity is invisible around the planets and heavenly bodies is also the same reason why light is invisible around a magnet and also around an electrical body. So, what is this universal reason that applies to light and to gravity?

Listen: Light and gravity become invisible whenever they operate as components of the gravi-electromagnetic wave.

The above is why light is invisible around a magnet and also around an electrical body. It is because light is acting as a component of the gravi-electromagnetic wave and not independently like it does outside the atomic world.

What we do in post-modern electromagnetism is to study and to explain how light as a component of the gravi-electromagnetic wave influences and governs the interactions of electrical and magnetic bodies.

This understanding is pivotal if you want to understand why light is invisible around a magnet. Nevertheless, in post-modern physics, we also study the process by which light becomes visible in the atomic world from which we now also observe it in our own frame outside the atomic world.

What I am informing is that light is invisible around a magnet and also around an electrical body because it is operating as a component of the superluminal gravi-electromagnetic wave and not alone.

Light is invisible around a magnet and also around an electrical body because it is operating as a component of the superluminal gravi-electromagnetic wave and not alone.Click To Tweet

This is the same reason why gravity is invisible, but while gravity is always invisible because it always exists as a component of the gravi-electromagnetic wave, light is not always invisible because it does not always exist as a component of gravi-electromagnetic wave, light can become free.

However, in the atomic world, light is most times a component of the gravi-electromagnetic wave. This is also due to the very gravi-electrodynamical nature of the atomic world. Remember that accelerated motion is the only form of motion in the atomic world.

So, the gravi-electromagnetic wave is the wave which underlies all accelerated motions in the atomic world and whenever light acts in the atomic world, it does so as a component of gravi-electromagnetic wave and never alone.

But under a special condition, the motion of electrical bodies in the atomic world becomes electrodynamical and light is emitted. I will discuss this one special condition in a future scientific article though you will find it in this scientific article.

Post-modern physics is informing us that the invisibility of light around a magnet and around an electrical body is connected to the majorly gravi-electrodynamical nature of motion in the atomic world. Only when motion becomes electrodynamical that light becomes observed outside the atomic world.

This is what is responsible for all the observations of light coming out from the atom. Therefore, the position of post-modern electromagnetism still stands. Light is what surrounds a magnet and an electrical body but it does so as a component of the superluminal gravi-electromagnetic wave which is why it is invisible.

A good understanding of the above also shows that light or the electromagnetic field is the approximate nature of the field around an electrical body and around a magnet and that the gravi-electromagnetic field is the complete nature of the field around an electrical body and around a magnet.

But in post-modern physics, we are satisfied to treat light as such because it is a non-mechanical wave in its own right as the gravi-electromagnetic wave.

In addition, what I am informing you in this article also applies to a current-carrying-conductor.

The electromagnetic field is invisible around a current-carrying-conductor because light is acting as a component of gravi-electromagnetic wave around it, and when light becomes emitted from it, like during radio communication, it is because the gravi-electrodynamical motion of the free electrons has become electrodynamical.

I will discuss this one special condition soon, but it is good to understand how easy it is for electrical bodies like the electron and the proton to boost between electrodynamics and gravi-electrodynamics. This is also the same for ponderable bodies that exist outside the atom; it is general nature of all motion.

So, from the resolution of the second query, we see how light and gravity are further similar. Presenting this similarity as the fourth identified one in this article, we have that:

4. Light and gravity become invisible whenever they act as components of gravi-electromagnetic wave.

Remember that the gravi-electromagnetic wave is simply a non-mechanical wave that is constituted of light and gravity.

Crucial Discussion

While the classical theory of electromagnetism is a Maxwellian electrodynamical theory, the post-modern theory of electromagnetism is based on relativistic mechanics.

Having noted the above, one must then become careful to understand the consequent distinctions the post-modern theory of electromagnetism has from the classical theory of electromagnetism when presenting a query against it.

These distinctions are what have helped increase my conviction about the veracity of the post-modern theory of electromagnetism and among other distinctions, I will just like to present two.

The first distinction is in the nature of light in the post-modern theory of electromagnetism which shows that light carries force and the energy in J/s2 in the atomic world. This nature of light, especially the nature of energy it carries, does not exist in the classical theory of electromagnetism and cannot emerge from it due to the second distinction.

And this second distinction has to do with the nature of space and time in the post-modern theory of electromagnetism. In post-modern electromagnetism, we are dealing with absolute space and time and not relative space and time which are the space and time in which Maxwell presented his electromagnetic theory of light.

So, in the post-modern theory of electromagnetism, we study the nature of light in absolute space and time and not in relative space and time. These two distinctions are very important reasons why the post-modern theory of electromagnetism standout and it should first be understood as such before presenting any query against it, especially if you have to rely on the classical theory of electromagnetism.

The second distinction the post-modern theory of electromagnetism has from the classical theory of electromagnetism is the major reason why some of the things that post-modern electromagnetism informs us about light cannot emerge from classical electromagnetism in any way.

Conclusion

In this scientific article, I raised two queries against the post-modern theory of electromagnetism and I addressed them using post-modern physics, and in addressing these queries, I arrived at four similarities between light and gravity or between the electromagnetic interaction and the gravitational interaction.

Light which is what makes us see the world around us and gravity which is what enables us to sit on a chair only seemed dissimilar before post-modern physics. In post-modern physics, we discover the profound similarities between light and gravity even beyond the ones identified in this scientific article.

All this has come as a result of a better understanding of electromagnetism which post-modern physics now unravels before our very eyes. The truth of the post-modern theory of electromagnetism lies, among other things, in how it exposes the similarity between light and gravity and finally showing us their long-sought “unified conformation”.

I can only hope that in the future, as more queries come up, they would only go further to show us how light and gravity are similar which is why today both entities no longer stand apart but have come together under one unified theory called Absolute Relativity.

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!