– I will like you to look very carefully at the featured image which was gotten from this Wikipedia link and which gives you the picture of what we want to discuss concerning magnetic monopoles as understood in classical physics.
In classical physics, you will see that every field or interaction is basically communicated by a pole which we call a monopole. We have just mass for the gravitational field and electric charge for the electric field, but when we come to the magnetic field, we find a dipole made up of the South Pole and the North Pole.
Physicists since classical times have not found a single magnetic pole made only of the North Pole or the South Pole (shown in the featured image). These two poles are always together to create the magnetic field.
In classical physics, we are taught that a moving electric charge creates a magnetic field, so physicists are assuming that if we can find a magnetic monopole or what we can call a magnetic charge, then it could become possible to observe a moving magnetic charge create an electric field.
This asymmetry between the electric field and the magnetic field has been noticed since classical physics especially when Maxwell’s equations do not reflect any symmetry between both fields.
The search for magnetic monopoles has become a major undertaken in physics because of its recent prediction by certain grand unified theories and also by string theory, but till today no magnetic monopole has been discovered.
However, now that we have post-modern physics, what does it say about the existence of magnetic monopoles. Do they exist according to post-modern physics?
Well, if you have been studying post-modern physics, as I have begun to teach it on this great science blog, then you should know what post-modern physics thinks about the existence of magnetic monopoles.
It first begins with the fact that in post-modern physics, there are no such things as a separate electric field and a separate magnetic field.
What causes a free electrical body to move or translate is the electromagnetic field and what causes the electrons in the magnet to spin is the electromagnetic field.
I have explained that both effects are due to the new discovery of the acceleration of light in the atomic world. The fact that light accelerates in the atomic world invalidates Maxwell’s idea of separate electric and magnetic fields.
So, in post-modern physics, we only have the idea of the electromagnetic field which is not derived from the separate existence of the electric field and the magnetic field. Referring to light as an electromagnetic field is now just a term devoid of Maxwell’s unification idea.
(I will discuss this further in my next scientific post on Aceleritas and the Maxwell’s Question where I will be more specific about the nature of light that is associated with its acceleration, but for now, let us focus on magnetic monopoles.)
In classical physics, we had the electric poles which are the negative and positive charges for the electric field and we had the magnetic poles which are the North and the South Poles for the magnetic field, but in post-modern physics, we only have the electromagnetic poles which are the lesser and the greater accelerations of light for both electrical bodies and magnets.
– Notice how for post-modern physics, I avoided using the term ‘electric field’ but used instead “electrical bodies” and how I avoided using the term ‘magnetic field’ but used “magnets” instead. This is because I want to address the electromagnetic field without referring to the electric field and the magnetic field separately.
From the above, it is easy to begin to see that in post-modern physics, electrical bodies spin in a magnet and they move in a wire because of the difference in the acceleration potential of light.
This is how light causes electrical motion in the universe and not by the separate or inter-related electric field and magnetic field. I want you to read this scientific article on The Post-modern Theory of Electrical Communication to further understand this.
So, in post-modern physics, the difference in the acceleration potential of light is what leads to the two electromagnetic poles for all electrical motions in the universe.The difference in the acceleration potential of light is what leads to the two electromagnetic poles for all electrical motions in the universe.Click To Tweet
The diagram below depicts how the two electromagnetic poles cause the movement of an electron in a wire.
Figure 1: A translating electron according to post-modern physics
From the diagram above, the electron is moving towards the pole of the lesser acceleration of light or I can say that the electron is moving in the direction of the lesser acceleration of light.
Also, for a proton, its motion will be towards the pole of the greater acceleration of light. It is just like having the case of electromagnetic attraction where the electron and the proton move in opposite directions towards each other.
The above is how we now understand the movement of electrons in a wire and the same applies to a spinning electron in a magnet as shown below:
Figure 2: A rotating electron according to post-modern physics
For a spinning electrical body like the electron, as shown above, the tangent of its axis of rotation is towards the pole of the lesser acceleration of light. The reverse would be towards the pole of the greater acceleration of light.
In post-modern physics, we have the two poles of the electromagnetic field as what produces both the translatory and the rotatory motions of electrical bodies as shown in the two diagrams above. The two poles of the electromagnetic field are always around a magnet and a current-carrying-conductor.In post-modern physics, we have the electromagnetic field as an ever unified essence producing the translatory and the rotatory motions of electrical bodies.Click To Tweet
This changes how we see the concept of magnetic monopoles, in fact, it completely refutes their existence and replaces it with the existence of electromagnetic monopoles which are already evident in (post-modern) physics.
Electromagnetic monopoles can simply be found in our study of elementary interactions of the electron and the proton where the pole or field of the lesser acceleration of light is related and around the proton while the pole or field of the greater acceleration of light is related and around the electron as shown below:
Figure 3: The electron and the proton shown as electromagnetic monopoles
So, common electrical bodies like the electron and the proton are the electromagnetic monopoles of post-modern physics and this is what is responsible for their electromagnetic interactions. This is what the diagram above shows.Common electrical bodies like the electron and the proton are the electromagnetic monopoles of post-modern physics.Click To Tweet
Magnetic monopoles according to classical physics are not only hypothetical, they are impossible in the universe.
Furthermore, post-modern physics gives us a different causal description of the new electromagnetism.
In classical physics, we had the particle dependent description of the motion of the magnetic field which is that the magnetic field exists around a magnet because of the spin of the electrons inside the magnet and that it exists around a current-carrying-wire because of the translation of the free electron inside the wire.
But in post-modern physics, it is reversed, such that we have the field dependent description of the motion of the particle which is that the spin of the electrons in a magnet is because of the electromagnetic field around it and that the translation of the free electrons in a current-carrying-wire is because of the electromagnetic field around the wire.
I want you to look at the two paragraphs above and see how post-modern physics is taking us to the true and causal understanding of fundamental interactions and of the universe even if it implies reversing our former understanding of these interactions.
Unlike in classical physics, where the emphasis is that the magnetic field is created by the motion of the electron, in post-modern physics, the emphasis is that the motion of the electron is created by the electromagnetic field.
This is the new emphasis, and in post-modern physics, the field and its motions are the first real things before the particle and its motions.
This new description comes as we have done away with the concept of magnetic poles and even of electric poles and have replaced them with the single concept of electromagnetic poles.
So why there are no magnetic monopoles in the universe is because what really exist are electromagnetic monopoles which I have pointed out are common particles like the electron and the proton and all other electrical bodies.Why there are no magnetic monopoles in the universe is because what really exist are electromagnetic monopoles.Click To Tweet
Either of the poles or the magnitudes of the acceleration of light can be related to the mass of these particles. This is what is responsible for the basic electromagnetic interactions between them.
In fact, the two electromagnetic poles are what caused the existence of the electron and the proton in the first place, and we have proceeded to understand the separation motion of electrical bodies based on how the two electromagnetic poles cause the attraction between the electron and the proton.
During electromagnetic attraction, there is motion between the electron and the proton. How this motion ensues is what is extended to explain the separate motions of electrical bodies. It is widely general for all electrical motions.
During electromagnetic repulsion, there is no motion, not even in the reverse direction between the electron and the proton. I want you to read this scientific article so that you will understand the electromagnetic interactions of electrical bodies.
This scientific article is informing us that magnetic monopoles do not exist in the universe and this is as a result of the new fact that the magnetic field does not exist, what exists is the explained electromagnetic field and its already identified electromagnetic monopoles which are the electrons, the protons, and other electrical bodies.
We just didn’t know about this because of our wrong understanding of how these fundamental interactions occur in the universe, but now that we do, let us proceed with the new theory of electromagnetism.
Until next time,
I will be here.
– M. V. Echa