The question: what is energy? is one of the most important questions in all of physics and there is no other place where you will learn about the true nature of energy like in this blog.
I have already written so much about energy which can be found in the Treatise and also in some of my scientific articles. But in this article, I want to inform you particularly about how we understand energy in post-modern physics.
This is important as it would give you a broader and more technical understanding of the new description of energy as it emerges from the base of post-modern physics.
Generally, in physics, energy is defined as the ability to do work. This basic definition is maintained even in post-modern physics, but what changes are the new qualitative inputs into this description of energy that post-modern physics presents.
To begin and to put it more clearly. In classical and modern physics, we have a frame independent description of energy in that both uniform and accelerated frames are taken to have the same form of energy in Joules.
But in post-modern physics, we have a frame dependent description of energy such that both uniform and accelerated frames are not taken to really have the same form of energy.In classical and modern physics, we have a frame independent description of energy, but in post-modern physics, we have a frame dependent description of energy.Click To Tweet
This is why in post-modern physics, the energy that uniform frames or ponderable bodies in uniform motion possess is called uniform energy while the energy that accelerated frames or bodies in accelerated motion possess is called accelerated energy.
These two forms of energy emerge from the qualitative nature of motion and of the universe. It happens in the universe that bodies in uniform motion move in uniform space while bodies in accelerated motion move in accelerated space.
So, because of this, the energy for uniform motion in uniform space is called uniform energy while the energy for accelerated motion in accelerated space is called accelerated energy and these two forms of energy obviously correspond respectively to the two forms of space in which bodies in uniform motion and those in accelerated motion move.
Now, the justification for the two forms of energy in the universe becomes evident when you compare the two forms of energy that ponderable and electrical bodies carry.
For ponderable bodies (in uniform motion and those in accelerated motion), they possess the energy in Joules, while for electrical bodies, they possess the energy in Joules/s2.
A good look at the above shows that it cannot be found in both classical and modern physics. The second form of energy in Joules/s2 and which electrical particles possess is missing from modern quantum mechanics!
This conceptual error alone is enough to cause the fall of modern quantum mechanics which makes no mention of this form of energy that governs all atomic phenomena.
Concerning the frame dependent description of energy in post-modern physics, while the energy in Joules is the typical form of the uniform energy for uniform frames, the energy in Joules/s2 is the typical form of the accelerated energy for accelerated frames, it’s just that the energy in Joules/s2 only becomes manifested in the atomic world, but in the non-atomic world, ponderable bodies still maintain the energy in Joules whether they are in uniform or accelerated motion.
However, without the frame dependent description of energy in the first place, we would not have understood why ponderable and electrical bodies could have different forms of energy.
And this frame dependent description of energy goes further and it is associated with the two absolute principles of motion, the absolute principle of inertia and the absolute principle of non-inertia.
Ponderable bodies in uniform motion and those in accelerated motions are respectively governed by the absolute principle of inertia and the weak phase of the absolute principle of non-inertia and because of this, they both carry the energy in Joules.
But in the atomic world, we only have the accelerated motion of electrical particles and they are governed by the strong phase of the principle of non-inertia and because of this, they carry the energy in Joules/s2.
So, it is obvious from the above discussion that the frame dependent description of energy in post-modern physics has three different facets that are interwoven. Firstly, we can look at it as it concerns the two forms of motion, uniform motion and accelerated motion.
Secondly, we can look at it as it concerns the two forms of matter, electrical and ponderable matter. And thirdly, we can look at it as it concerns the two absolute principles of motion, the absolute principle of inertia and the absolute principle of non-inertia, understanding that the principle of non-inertia has the weak and the strong phases.
Whichever of the facet we choose, we are still looking at the frame dependent description of energy and we can weave them together. This is how we understand energy in post-modern physics and I want you to become mindful of this from this article.
Also, this method of frame dependent description applies to many other concepts in post-modern physics one of which is the concept of rest. I will like you to read this my scientific article.
Energy has become a broader concept in post-modern physics. We no longer understand energy as we did in classical and modern physics. I have placed the link to my article on the two laws of conservation of energy and I want you to read it.
Now, how can we explicitly define energy that comes to terms with the discoveries of post-modern physics? We can define energy as:
- Energy is a frame dependent absolute quantity that possesses only two forms, which are uniform energy (in Joules) and accelerated energy (in Joules/s2).
The definition of energy above is absolutely fundamental and encompassing in this new era of post-modern physics.
The former description that is void of quality is no longer applicable and according to the new qualitative description: all ponderable bodies require the energy in Joules in order to do work while all electrical bodies require the energy in Joules/s2 in order to do work.
The above is what energy is in post-modern physics and I am more than excited about this new knowledge about energy that has come down to us from the absolute reference frame!
I want to end this article by promising you that I will teach you more about energy, that I will completely exhaust myself explaining to you the phenomena of the universe according to post-modern physics.
This is why I have come in this age of truth, that you may know the truth about all things, of which energy, as explained, is one of them.
Until next time,
I will be here.
– M. V. Echa