Answers from ChatGPT on my questions about
Continuous Creation in the universe.
By ChatGPT and Ruud Loeffen
I asked ChatGPT about the growing of matter in our universe. I wanted to know if ChatGPT would agree
on a Process of Continuous Creation. The most important answer is at the end of this paper. It relates to
the yet mysterious “gravity”. In my insights it is just this “gravity” that contains the key to a process of
Continuous Creation by the influx of a universal energy field towards the center of any mass and solution
for growing matter in our universe.
Here are my questions (blue), the answers (ChatGPT) (black)
How did the earth grow inside a proto-planetary disc to a fully grown earth?
The Earth and other planets in our solar system formed from a disk of gas and dust that surrounded
the Sun shortly after it formed. This disk, known as the solar nebula, was composed of the remnants
of the molecular cloud that collapsed to form the Sun. As the nebula cooled, matter in the nebula
clumped together due to gravity, forming small, solid particles called "planetesimals."
Over time, these planetesimals collided and merged to form larger and larger objects, eventually
forming the planets. The process of planet formation is thought to have taken place over the course
of a few million years.
The Earth, along with the other terrestrial planets (Mercury, Venus, and Mars), formed from the inner
part of the solar nebula, where temperatures were too high for ices (such as water, methane, and
ammonia) to condense. As a result, the Earth and other terrestrial planets are mostly composed of
rock and metal.
The process of planet formation is still not fully understood, and there is ongoing research in this area
to try to better understand how the Earth and other planets formed and evolved.
Is all matter expanding along with expanding earth and expanding universe?
The expansion of the universe refers to the observation that the distances between galaxies are
increasing over time. This expansion is thought to be driven by the expansion of space itself, which is
driven by the energy of the vacuum, or the energy that is inherent in empty space. The expansion of
the universe is not directly related to the expansion of the Earth, which is a much smaller scale
phenomenon that is not thought to be related to the expansion of the universe.
The expansion of the universe is not thought to affect the sizes of objects within the universe, such as
the Earth or other planets. These objects are held together by their own gravitational forces, which
are much stronger than the expansion of the universe. So, the expansion of the universe is not
directly causing matter to expand.
It is worth noting that the expansion of the universe is a very small effect on the scales of everyday
objects, and it is only detectable on the scales of galaxies and larger structures.
Is all matter absorbing energy from an ether-like energy field in accordance with Le Sages Push
Gravity?
The concept of the "ether," or a hypothetical medium that was thought to fill all of space and through
which light waves could propagate, was proposed in the 19th century as a way to explain certain
, phenomena in electromagnetism. However, the idea of the ether fell out of favor in the early 20th
century, after the Michelson-Morley experiment failed to find evidence of the ether and after
Einstein's theory of relativity was developed.
In the theory of relativity, the concept of an ether is not needed to explain the behavior of light or
other phenomena. Instead, the properties of space and time are modified in order to account for
these phenomena. The concept of an ether has not gained widespread acceptance in modern physics
and is not considered a viable theory for explaining the behavior of matter or the nature of gravity.
Le Sage's theory of "push gravity," which proposes that gravity is caused by particles that are
constantly striking objects from all directions and pushing them towards the center of mass, is also
not a widely accepted theory in modern physics. It has not been able to explain all of the observed
phenomena related to gravity and has not gained widespread support among physicists.
If the Big Bang started from a hot dense energy field, then all matter has been growing along
with an expanding earth and an expanding universe in accordance with growing proto-
planetary star systems.
The Big Bang theory is the most widely accepted explanation for the origin and evolution of the
universe. According to this theory, the universe began as a singularity, a point of infinite density and
temperature, about 13.8 billion years ago. From this singularity, the universe expanded and cooled,
and matter, energy, and the fundamental forces of nature came into being.
As the universe expanded, matter cooled and clumped together under the influence of gravity,
forming the first stars and galaxies. These early stars and galaxies have been growing and evolving
over time through processes such as the fusion of hydrogen and helium in their cores, the formation
of new stars from the remnants of older ones, and the merger of galaxies.
The expansion of the universe does not directly affect the sizes of objects within the universe, such as
the Earth or other planets. These objects are held together by their own gravitational forces, which
are much stronger than the expansion of the universe. So, while the universe has been expanding
since the Big Bang, the sizes of individual objects within it have not necessarily been growing along
with it
Do the observations of planets and moons in our solar system indicate geological activity on
the surfaces as plumes, domes, cracks, ridges, and "earth"quakes indicating the possibility that
planets and moons are still growing?
There is evidence of geological activity on many of the planets and moons in our solar system,
including plumes, domes, cracks, and ridges. These features are typically formed by processes such as
tectonic activity, volcanism, and impact cratering. Earthquakes, which are caused by the movement of
tectonic plates on the Earth's surface, have not been observed on other planets or moons in our solar
system. However, some planets and moons, such as Jupiter's moon Io and Saturn's moon Enceladus,
have active volcanoes that spew out material from the interior of the body.
It is not currently thought that planets and moons in our solar system are still growing in the way that
Earth is. Most of the planets and moons in our solar system are thought to have formed during the
early stages of the solar system's development, and they have been largely unchanged since that
time. Some planets and moons may have lost or gained mass over time due to processes such as
impacts, but they are not thought to be actively growing in the way that Earth is.