The World of Quantum Ecology

Disclaimer / Please be sure to read

Quantum Ecology is untested and unacknowledged by current physical science. Therefore, please note that we are not responsible for any problems that may arise from applying the theories and techniques on this site without our involvement. If you would like to add Quantum Ecology perspective to your current research, please contact us. We will work with you to achieve the best results.

No.5
What is quantum?



Today, I'd like to talk about what a quantum is.

I believe that this theme may determine whether we, as humans, can regenerate our beautiful Earth and create a happy society all over the world.
That's what's next.

In the world of "things" as we know it, even if the number of things changes, the things do not change.
But quantum is different.
In the natural world, when the number of quanta changes, it changes into a different object.

Currently this is not being taken into account in physical chemistry research, in industrial technological development, or in any other aspect of it. So without us noticing, things on Earth are changing into increasingly strange states.
This is why the global environment continues to be destroyed and why we are unable to eradicate human diseases.

Therefore, this is a very important theme.

It's a little long, but please make sure you understand.
And please use the knowledge of Quantum Ecology in your life so that the earth will not be destroyed.


Atoms are made up of three types of energy: protons for positive electricity, electrons for negative electricity, and neutrons for magnetic energy. The "quantum" in Quantum Ecology means these three things.

Even in current physical science, these are called "quantum," but other elementary particles such as photons, neutrinos, and quarks are also considered quanta.
In Quantum Ecology , only three particles are consider to be quantum : protons, electrons, and neutrons. Other types of particles do not need to be considered as quantum.

In modern physical science, a quantum is defined as having the properties of a particle and a wave. Although there are differences in opinion between Quantum Ecology and modern physical science regarding the types of quantum, the view on this nature is exactly the same in Quantum Ecology too.

Current physical sciences cannot explain why quantum matter has the properties of both particles and waves. However, from the perspective of Quantum Ecology, it becomes very easy to understand how this mechanism is reflected in the natural world.

You may think I am being arrogant without a PhD. I am certainly not a professional scientist. In fact Quantum Ecology is rejected and ignored by universities, researchers, and research institutes all over Japan.

However, I have designed parks, green spaces and natural environments, and have created and drawn up blueprints for connecting people with nature.
Once the drawings are completed, construction would be carried out on site according to the drawings. I have also seen how living things are connected by the lines that my drawings were on.

After that, I continued to interact with soil through farming, continued to watch seeds sprout, continued to eat the vegetables I had grown, and continued to observe my own blood under a microscope.

I do not observe phenomena in beakers and petri dishes in a laboratory, but rather recognize and verify phenomena in my own everyday life, so I cannot compromise on Other theories.

Please understand that Quantum Ecology has this background.

Today I'm going to tell you something very important.
Please understand and remember.
As I have explained, atoms are made up of three types of energy: protons for positive electricity, electrons for negative electricity, and neutrons for magnetic energy.

But we don't see objects in terms of these three types of energy.
In fact, we're not taught that objects are collections of energy.

In the world of Quantum Ecology, it is necessary to understand things as energy. Otherwise, we will never be able to uncover the truth of the natural world.

So what is the difference between seeing things as objects and seeing them as energy?
Let me explain in detail.
However, we can usually ignore neutrons, so we will ignore them in our discussion today.


There is one apple and one orange in the box.
Someone puts another apple and another orange into the box.

What will happen?

The answer is: there will be 2 apples and 2 oranges in the box!

Great!! That's the right answer!!

Next question, in a box, there is one positive proton and one negative electron.

Into the same box, someone added one more proton of + electricity and one more electron of - electricity.

What will happen?

There are two protons and two electrons!!

Correct!

But from the perspective of Quantum Ecology, this answer is wrong.
According to Quantum Ecology, three answers must be presented.

The second answer is two hydrogen atoms.
The third answer is one helium atom.


Plus, what happens if someone adds one more proton and one more electron?

The first answer is three protons and three electrons.
The second answer is three hydrogen atoms.
The third answer is one lithium atom.
The fourth answer is one hydrogen atom and one helium atom.


If someone adds five more protons and electrons, the answer becomes:

The first answer is eight protons and eight electrons.
The second is eight hydrogen atoms.
The third is one oxygen atom.
The fourth could be one hydrogen atom and one nitrogen atom.
Or maybe one lithium atom and one boron atom.
No, it could be one helium atom and one carbon atom, or maybe something else.

What of these occurs depends on the environment inside the box.

In this way, quantum world is not continuous like apples and oranges.
The quantum world is a discontinuous world.
This is the world of Quantum Ecology.

In current physical science, this premise is completely absent when it comes to explaining and researching natural phenomena.
As a result, we are largely unable to understand the true nature of phenomena, and the Earth continues to be wrong.


That's why I suggest that in order to change the world for the better, we need to adopt a Quantum Ecology approach.

Today, remember the following:


In the physical world, things do not change when the number of objects changes. In the quantum world, objects change when the number of quanta changes.
Without understanding the quantum world of discontinuous values, we humans cannot understand nature. 




TopeToha card shop