What Is an Electron in Post-modern Physics?

Let’s begin this great scientific article with the central question: what is an electron in post-modern physics? We will address this question by first making a vital reference to what an electron is in modern physics.

Remember that it was during the modern era of physics and by the pioneering practical investigations of Sir J. J. Thompson that we came about the modern definition of the electron.

And according to this modern description, the electron is described thus:

  • The electron is as a negatively charged sub-atomic particle e.

This is the core definition of an electron according to modern physics. We could have other extensions of the above modern description of the electron, one of which is that it is a particle that moves outside and around the nucleus, but this is not central to our discussion. 

This is because I want you to note one thing about the modern definition of an electron which is that it is dependent only on the property of the electron, which, as assumed, is that it is a negatively charged sub-atomic particle according to modern physics.

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But in post-modern physics, we have a new definition of the electron and this has emerged because we now have the knowledge of the unity of the universe.

So, let me define what the electron is according to post-modern physics before I proceed to other things. In post-modern physics, the electron is defined thus:

  • The electron is a sub-atomic particle that has charge e and that only responds to the lesser acceleration of light <.

The above post-modern definition of the electron is two dimensional in that it is both field-based and particle based. This is unlike the modern description of the electron which is one dimensional in that it is only particle based.

The post-modern description of an electron is both particle based and field-based because it makes reference to charge and to the lesser acceleration of light respectively. However, this is not the case for the modern description of the electron.

The post-modern description of an electron is both particle based and field-based because it makes reference to charge and to the lesser acceleration of light respectively.Click To Tweet

The post-modern description of the electron obviously criticizes or contradicts the modern description of the electron which bases its description of the electron on the concept of charge signs.

In modern physics, we have the negative and the positive charge signs and the electron is taken to have the negative charge sign while the proton is said to have the positive charge sign while maintaining that the magnitude of their charges is the same.

So, in modern physics, it is taken that the electron responds to positive charge while the proton responds to negative charge. But this modern description of the electron is obviously refuted by the post-modern description of the electron presented above.

In the above post-modern description of the electron, it is said that the electron is a sub-atomic that responds to the lesser acceleration of light. This insight replaces the idea that the electron responds to the positive charge.

Now, the lesser acceleration of light is one of the two fundamental magnitudes of the acceleration of light which arises and is related to the mass of the proton.

Listen: in the sub-atomic world, we no longer talk about the speed of light but the acceleration of light and the acceleration of light has two fundamental magnitudes due to the different masses of the electron and the proton.

The acceleration of light has two fundamental magnitudes due to the different masses of the electron and the proton.Click To Tweet

So, because of this, both the electron and the proton have the same charge magnitude e without regards to charge sign and they respond respectively to the two fundamental magnitudes of the acceleration of light, and for the electron, it responds to the lesser magnitude of the acceleration of light.

In post-modern physics, the concept of charge sign is deemed superficial and having no relation to reality. Charge has an entirely positive or singular sign. There is no such thing as positive and negative charges in simultaneous interaction.

Charge has an entirely positive or singular sign. There is no such thing as positive and negative charges in simultaneous interaction.Click To Tweet

We now have that the electron is a sub-atomic particle that has charge e and only responds to the lesser acceleration of light <. This is the basic understanding of the electron in post-modern physics.

And in post-modern physics, we would have that the electron is depicted as presented below:

The electron

The letter e placed above the electron is used to indicate the magnitude of charge which is what we have as 1.602 × 10-19 C and the lesser sign < placed as a superscript above e is used to indicate the lesser acceleration of light.

The above is how the electron is depicted in this great post-modern era physics. I will show you that of the proton in my next scientific article.

A comparison of the former two charge signs and the current two fundamental magnitudes of the acceleration of light shows that we have been attempting to establish the true field to which the sub-atomic particles respond.

In modern physics, we assumed that the electron responded to a positively charged field, but in post-modern physics, we take that the electron responds to the field of lesser acceleration of light.

By making reference to light and not to charge sign in the latter, we are obviously making reference to a real (electromagnetic) field. This is an indication of why the post-modern description of the electron is right.

The former about a positive sign field is not about magnitude whereas the latter about the acceleration of light is about magnitude. This is what gives the measure of concreteness we have in the post-modern description of the electron and which is really needed for us to understand the sub-atomic world.

The new description of the electron is related to the post-modern particle accelerator principle and it is not incorporated in the modern interpretation of the operation of particle accelerators.

The lesser of the two magnitudes of the acceleration of light is what gives us the field aspect of the description of an electron. So, know specifically that the electron only responds to the lesser acceleration of light <.

Also, the electron still has charge which simply is e and it doesn’t have any relation to the sign of the charge. Only the magnitude of the charge is relevant and true in post-modern physics.

If you look at the post-modern description of an electron, you will see that the two factors, charge and the acceleration of light, are only applied in their magnitudes. No positive or negative sign is attached to either of them.

This great scientific article has just exposed to you one of the results of the great scientific revolution which is about the post-modern description of the electron.

This new post-modern description of the electron is fundamental and encompassing and it also changes in a radical way the already understood modern structure of the atom which will be definitely presented in the nearest future. Watch out for this article!

Finally, in post-modern physics, the electron is given a new two-dimensional definition as a sub-atomic particle that has charge e and that responds to the lesser magnitude of the acceleration of light <

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!