From Hephaestus to GPT-3: The Evolution and Future of Artificial Intelligence Introduction Artificial Intelligence (AI) has been a topic of fascination and speculation for centuries, with its roots in ancient mythology and its future in cutting-edge technology. This article will explore the evolution of AI, its current capabilities, and its potential impact on society. The Mythical Origins of AI The concept of AI can be traced back to ancient Greek and Roman mythology. Hephaestus, the god of fire and blacksmiths, was renowned for his exceptional craftsmanship. However, his skills were so sought after by the other gods that he never had a day off. To alleviate his workload, Hephaestus created mechanical slaves, effectively the first depiction of AI. The Birth of Modern AI The advent of modern AI began during World War II with the introduction of computers made of vacuum tubes. These machines, although primitive by today's standards, were capable of performin...
A Terrifying Discovery) discusses a recent
and significant discovery in the field of physics. This discovery pertains to
the Higgs boson, a particle that was first discovered in 2012 at the Large
Hadron Collider (LHC). The Higgs boson, also known as the God Particle, is
responsible for giving all other particles their mass. This mass is not a
simple numerical value; it is the most crucial data that exists in the
universe, creating gravity by bending the space-time of the universe.
The Higgs boson's existence was purely
theoretical until its discovery. However, it is now known that these particles
are responsible for the mass we gain when we step on a scale and the reason we
need to diet. The Higgs particle gives all particles their mass, and this mass
does not change. While it can be replaced by energy, making the law of
conservation of mass incorrect and the law of conservation of energy correct,
mass is generally conserved. This conservation of mass means that the data of
each particle is indelible, and this has been the case since the universe was
created.
However, a recent conference at the LHC
announced a startling discovery that challenges this long-held belief. Evidence
was found that the Higgs boson, the particle that gives the universe its data,
can decompose into a ground beam and a photon. This discovery suggests that the
universe's data can be deleted, a concept that contradicts the previously held
belief that the data of each particle is indelible.
This discovery was made possible due to a
major upgrade at the LHC. Theoretically, the more energy the Large Hadron
Collider puts into it, the more likely it is to find new, smaller particles.
This was possible thanks to a large-scale upgrade of LHC before 2012. And after
one more upgrade last year, LHC discovered that there is a hypothetical
particle involved in resolving the Higgs boson.
The data for this discovery came from
examining the Higgs data obtained by accelerating and colliding with near the
speed of light. Statistically, the error rate of the standard deviation is
about 3.4, but it is a number that can never be ignored.
If you think that there is no way that the
Higgs particle will disappear right away, of course, you are right. In the
scenario, no energy interacts with the four major forces, and no matter what we
do, we cannot stop the universe from accelerating expansion. If this process
continues for a long time, which is difficult to imagine from our human point
of view, eventually all stars and planets will disintegrate into atomic units,
and if a tremendous amount of time passes there, atoms will disintegrate into
elementary particles.
If even the Higgs particle, which gave
mass, or data, to elementary particles is dismantled into photons, eventually
the universe will become a state of complete nothingness. It's going to take a
while, but if you research and synthesize the latest energy, eventually the
universe will return to a state where there is nothing. We have no idea what
this hypothetical particle that can break down the Higgs boron into photons is.
Talking about this cosmology leads to
personal philosophical thoughts. After all, we don't even know where we came
from or why. At some point, you will be born and have your own self, and at
some point you will die, and your existence will disappear. Before you are
born, you will go to a state of nothing. If this is confirmed, I wonder if the
universe willbe created again or it will end as it is, because the perfectly
harmless state is mathematically the same as in the Big Bang, from the point of
view of the super string theory I talked about before.
The discovery of the Higgs boson, or the
God Particle, was a significant milestone in the field of physics. It provided
an explanation for why we have mass and why we gain weight. It also introduced
the concept of mass as the most important data in the universe, responsible for
creating gravity by bending the space-time of the universe. However, the recent
discovery that the Higgs boson can decompose into a ground beam and a photon
has challenged the long-held belief that the data of each particle is
indelible. This suggests that the universe's data can be deleted, a concept
that was previously unthinkable.
The Large Hadron Collider (LHC) played a
crucial role in both these discoveries. The LHC was able to discover the Higgs
boson in 2012, and a recent upgrade to the LHC led to the discovery of a
hypothetical particle involved in resolving the Higgs boson. This hypothetical
particle could potentially break down the Higgs boson into photons, leading to
a state of complete nothingness in the universe. This process, however, would
take an unimaginable amount of time from a human perspective.
The implications of these discoveries are
profound and lead to philosophical thoughts about our existence and the origin
of the universe. We don't know where we came from or why we exist. We are born,
we live, and then we die, returning to a state of nothingness. If the universe
returns to a state of nothingness, it could potentially be recreated in a Big
Bang-like event, according to super string theory.
In conclusion, the video presents a
fascinating exploration of the Higgs boson and its implications for our
understanding of the universe. The discovery that the Higgs boson can
decompose, potentially leading to the deletion of the universe's data, is a
significant development in the field of physics. However, there is still much
we don't know, including the nature of the hypothetical particle involved in
resolving the Higgs boson. As we continue to explore these mysteries, we are
reminded of the vastness of the universe and the endless possibilities it
holds.