Chapter 268 - Chapter 268: Chapter 198: Earth-shattering (Thanks to
Chapter 268: Chapter 198: Earth-shattering (Thanks to
UƤDATΕD by ƁXNVEL.ƇƟMAlliance Leader Filthy Meow King!) _3
Translator: 549690339
Harrison Clark also provided a conceptual derivation and mathematical proof of the mass-energy conversion process in the birth of gold and lead during the collision of neutron stars.
He accurately described and reclassified the mass of neutrinos, such as electrons, muons, and tau particles.
He gave a preliminary explanation of the relationship between various neutrinos and electromagnetic forces, strong interactions, and weak interactions.
By 2020, these problems had been solved to some extent, but they were still not accurate enough.
Harrison Clark came up with more accurate answers that were supposed to be obtained after 2050, and he reverse-engineered the mathematical proofs obtained from these answers, pretending that the outcomes were derived from these formulas.
It’s not over yet.
He boldly speculated on the origin of matter in the book.
He clearly told the world that at extremely high temperatures and high densities, which are currently beyond human reach and understanding, quarks can be further divided.
The nature of matter at the next micro-level has undergone an indisputable fundamental change.
The divided matter/energy can be named “preons” by following the modern human nomenclature.
Preons are very firmly in a state of constant mass-energy conversion, with thirty-six classifications…
The electric charge and mass carried by each preon are…
When preons make up quarks, the relationships between electric charges, such as multiplication, division, and so on…
Of course, Harrison Clark also told the world that researching preons is pointless and not worth the cost before humans master controlled nuclear fusion or reach a new level of understanding in photosynthesis, producing solar photonic wings that can be deployed outside the Earth.
Harrison Clark also analyzed the relationship between gravity, dark matter, and dark energy.
He told the world that humanity has been trying to find the nature of dark matter – theoretically, something that makes up the vast majority of the weight of the entire universe.
Harrison Clark said.
Dark matter is the solidification of dark energy accumulated by energy.
Dark energy is actually omnipresent gravity.
According to the conjectures of some great physicists at the turn of the twenty-first century, humans believe that ordinary matter occupies 4% of the universe’s mass, dark matter 23%, and dark energy 73%.
Harrison Clark gave a definite answer: this answer is basically correct but not entirely correct.
This mass ratio is not an absolutely constant parameter, but rather a quantized, constantly changing stage.
It should be a floating range value.
Why does it change?
Because these three substances actually possess the same nature.
The description should be changed to ordinary matter 4%, dark matter (aggregated block-stacked space – gravitational field) 23%, ubiquitous dark energy (universal gravitation) 73%.
Studying gravitational waves or the nature of gravitational fields is actually studying the flow of dark energy.
Harrison Clark dared to give such a definitive answer, actually pushing this knowledge thousands of years into the future.
Because up until 3020, the gravity field project team he had personally facilitated still hadn’t completely grasped this technology.
Human research on gravity still progressed slowly and never reached its peak.
To prove his conjecture and make it easier for contemporary humans to understand, Harrison Clark used black holes as an example.
He re-explained the relationship between black holes and dark matter.
Black holes are the ultimate form of the density of ordinary matter in the current universe.
But a black hole is a black hole, not dark matter.
Theoretically, there is an infinitely small singularity at the center of a black hole.
The existence of the singularity is a paradox that would cause a rift in general relativity and the uncertainty principle in quantum mechanics.
Black holes “grow spontaneously”, and the essence of their growth process is to constantly absorb external matter to achieve self-expansion and mass increase.
Everyone knows that the strong gravity of black holes can even capture light.
From the surface, it appears that the single light entity has been pulled by gravity.
But in reality, this is not the case.The cause and effect were reversed: it was the black hole that first absorbed what seemed to be space, but actually was the gravitational force of dark energy.
Gravitational force has mass and truly exists, and can be considered as the omnipresent water in the ocean.
In the process of absorbing gravity and space, black holes act like whirlpools, sucking in water and incidentally sweeping a small boat floating in the whirlpool along the way.
Light is not willingly thrown into the black hole, but rather, is dragged in by gravity.
As black holes constantly absorb dark energy, their volume, mass, and pressure expand, eventually leading to a change in property.
When black holes grow to a certain size, they suddenly change properties, rapidly inflating in volume to become dark matter – a substance seemingly non-existent but actually eternally present, where general relativity and quantum mechanics intertwine and validate each other.
During this transformation, energy fluctuations are so powerful that humans cannot imagine them, but the process is very brief.
Supermassive gamma-ray bursts are released during this process.
Gamma-ray bursts come in various strengths and usually occur during gigantic stellar collapses, supernova explosions, or mergers involving dense celestial bodies (such as black holes or neutron stars).
However, a higher level of supermassive gamma-ray bursts, which come from the transformation of black holes into dark matter, exists at a different scale.
For example, the gamma-ray burst that almost destroyed Earth’s entire ecosystem 500 million years ago came from a massive black hole transforming into dark matter near the Laniakea Supercluster group, which had absorbed a scale slightly smaller than the Milky Way Galaxy.
Starting from dark matter, Harrison Clark further analyzed the universe with a more fringe science approach.
It is widely known that the force provided by dark matter and dark energy together, which “steals” gravitational force beyond observed matter, maintains the stability of galaxy clusters moving relative to each other.
Actually, a long time ago, the visible matter in the universe was more densely packed, but as one galaxy cluster after another disappeared into black holes, becoming dark matter, the space between them became sparser, giving rise to vast cosmic voids.
Within these cosmic voids, the corpses of countless galaxies lie hidden.
It took Harrison Clark five whole days to explain all of the above in a more rigorous and seemingly reliable way.
He spent the last of these days focusing on the S Bacteria.
He made an assumption.
Suppose an almost invincible super-bacteria appears in the future.
How would such a super-bacteria that defies the laws of the universe evolve?
How could humanity restrain it?
Humans must quickly amputate the limb to save the body, decisively sever all sources of infection, immediately raise the isolation level to the highest tier, eradicate the bacteria entirely, and then artificially culture and accelerate its evolution to decode its genetic sequence and create a vaccine for the ultimate strain of the bacteria.
Furthermore, Harrison Clark devised the most probable protein shell structure and molecular formula for this extraordinary super-bacteria in a “theoretical” manner.
With this as a foundation, future generations could create an A-Class vaccine capable of fighting the Ultimate Poison King, the ultimate form of S Bacteria, and then wait for its advent confidently.
If someone, inspired by him, studied the vaccine in advance, they could even have it ready right at the start of the S Bacteria’s six-month incubation period.
Harrison Clark used Sergey’s encryption method to hide this information layer in an e-book, set to be triggered on January 1, 2520.
Before that date, nobody could forcefully access it, as doing so would only destroy the information.
The reason for this is that Harrison Clark must also guard against another possibility.
Should the truth be revealed prematurely and become common knowledge, it cannot be ruled out that when the Solar System Barrier descends, invaders will discover the situation through some remote sensing method, abandon the use of S Bacteria, and resort to even more heinous means.
To ensure that the hidden information was absolutely foolproof, Harrison Clark did not include any records of the S Bacteria in the earliest academic monographs he published in the following days.
He made a mental note for himself – he would only release the e-book with the S Bacteria vaccine two months later.
By then, he would have gone to the future and seen the situation for himself.
If the vaccine solution were to be exposed prematurely due to someone breaking the encryption in advance or the encryption algorithm becoming ineffective, and the invaders adopt new measures, then the next time he returns, he will find a way to upgrade the encryption method, reconsider the release method, or even not release the information at all.
Harrison Clark would never admit to his own intelligence, but on some level, his IQwas extremely high.
Feeling self-satisfied, Harrison Clark sent out his book entitled The Madman’s Conjectures Collection. It was presented as a fringe science work but actually contained all the truths. He published it in the form of an e-book on the Internet.
Three hours later.
The whole world was shaken.
It was groundbreaking.
In just nine days, Harrison Clark, this history-shaking moth, transformed into a storm-summoning Roc..