Electrical motion basically refers to the motion of electrical bodies such as the electron, the proton, the muon, etc. This kind of motion would not be special if not for the fact that it is different from ponderable motion which refers to the motion of ponderable bodies such as a human, a piece of rock, etc.
So, in post-modern physics, we discuss electrical motion and ponderable motion as two different kinds of motion. This is unlike classical physics where both kinds of motion are taken as being essentially the same in the sense that the quantities of motion of apply indiscriminately to them.
In classical physics, electrical motion would be defined thus:
1. According to classical physics, electrical motion is the motion of small, atomic particles.
The above is because electrical bodies are usually small particles that make up the atomic world. Classical physics would define them as above since it does not recognize that electrical motion is further special.
This is where we come to post-modern physics which defines electrical motion as presented below:
2. According to post-modern physics, electrical motion is the motion of small, atomic particles which can only carry absolute force and the energy in Joules/s2.
The above shows how post-modern physics goes further to inform us about electrical motion beyond the fact that it applies to small, atomic particles.
Post-modern physics is informing us that electrical motion is the kind of motion that involves force and the energy in Joules/s2. This is unlike ponderable motion which involves momentum and the energy in Joules.
We are now looking at the qualitative difference between electrical and ponderable motions. This is why I refer to both kinds of motion specially in this blog.
I speak of electrical motion in order to make you realize that I am speaking of the kind of motion that involves force and the energy in Joules/s2. This understanding is what now underlies post-modern quantum mechanics.
In post-modern quantum mechanics, we have completely transformed the equations to reflect this truth. You will see this in this great scientific article on the post-modern form of Schrödinger’s equations linked below:
Quantum mechanics was missing the true dynamics of the motion of electrical bodies. It wrongly assumed that the basic principles of motion apply the same to both quantum particles and non-quantum particles.
But now in this post-modern era, whenever we refer to quantum particles, we are aware that we are referring to particles that can only carry force and the energy in Joules/s2 whenever they move.
What we now call electrical motion is totally unconcerned or unrelated to momentum and the energy in Joules. These quantities only apply to ponderable motion which occurs outside the atomic world.
Thus, if a piece of rock and an electron are placed side by side such that they are both pushed into motion, you must see beyond what is apparently observable to know that the piece of rock is carrying momentum and the energy in Joules while the electron is carrying force and the energy in Joules/s2.
This all-important distinction is what has made ponderable motion different from electrical motion all this while and it is why we have not been able to explain the double slit experiment. If we knew about this, then we would have known how an electron could pass through two slits.
The quantum world is no longer a mystery because we have discovered the qualitative nature of the dynamics of electrical motion. A whole new understanding of force and energy has emerged from this new physics.
Our former tradition of applying the quantities or would I rather say the qualities of motion indiscriminately to both ponderable bodies and electrical bodies is now over. Physics cannot continue to be based on the quantitative nature of the universe, for there is quality in all things.Physics cannot continue to be based on the quantitative nature of the universe, for there is quality in all things.Click To Tweet
This is why I have decided to write two separate scientific posts about electrical motion and ponderable motion. We can no longer crisscross the two of them.
Electrical motion and ponderable motion do not coincide and they are not governed exactly by the same fundamental principles.
Ponderable motion, being a kind that exhibits both uniform motion and accelerated motion, is governed by the principle of inertia and the weak phase of the principle of non-inertia while electrical motion, being a kind of motion that exhibits only accelerated motion, is governed by the strong phase of the principle of non-inertia.
The qualitative natures of electrical motion and ponderable motion are what constitute the divide between the atomic world and the non-atomic world. They also go ahead to be related to the triune nature of natural phenomena.
We now talk about electrical motion not just as it involves bodies with charge but also as it involves bodies that can only carry force and the energy in Joules/s2 whenever they move.
So, you cannot set an electrical body into motion without impressing force and the energy in Joules/s2 on it. This is the basic idea about electrical motion.
In post-modern physics, we are letting go of Newtonian mechanics for a better understanding of the universe. The new mechanics which is purely relativistic is based on the absolute nature of space and time.
What you are being informed about electrical motion in this scientific article and about ponderable motion in my other article are borne out of the metaphysical universe. They are in no way a physical understanding of the universe even if I make them seem so.
The conceptual language of the new science is metaphysical and it is a radical transformation of our understanding of motion in the universe. It is what has led to the two major divisions of motion which I pointed out in my other article to be the kinematic division and the material division.
The material division of motion into ponderable motion and electrical motion is what has been our major concern so far.
Electrical motion is responsible for the true structure of the atom and its inherent motions just like ponderable motion is responsible for the true structure of the galaxies and their inherent motions. We really need to understand electrical motion in order for us to understand the true structure of the atomic world.
So, it goes without saying that when particle physicists are looking into the atom or accelerating electrical bodies in particle accelerators, they must know that they are looking at particles that are undergoing electrical motion and which is distinct from ponderable motion as pointed out in this scientific article.
Until next time,
I will be here.
– M. V. Echa