Cosmology.
All matter of the Universe (all galaxies, dark matter, the whole zoo of quantum particles, virtual particles,
antimatter, etc.) exists in an infinitely flat, homogeneous, isotropic, weightless and very cold Cosmic Vacuum
at a temperature of T=0K. So, traveling deeper into the infinite vacuum of space, the picture of the world
will be repeated and we can not discover anything new.
To learn something new about the universe, we need to study the cosmic frame of reference itself.
Everything is born in the Cosmic Vacuum (thanks to entropy, Heisenberg Uncertainty Principle & quantum fluctuations)
and dies in the Cosmic Vacuum. Without the Cosmic Vacuum there is no place for existence.
But we ignore the study of the infinite Cosmic "emptiness, nothingness, vacuum"
#
Back in the middle of the 18th century, “a fiery substance-phlogiston” was needed to explain chemical reactions,
and in the middle of the 19th century, mechanical analogues (with balls, springs, hooks, etc.) were widely used
to explain Maxwell EM effect.
Physics is much more abstract these days.
All matter of the Universe (all galaxies, dark matter, the whole zoo of quantum particles, virtual particles,
antimatter, etc.) exists in an infinitely flat, homogeneous, isotropic, weightless and very cold Cosmic Vacuum
at a temperature of T=0K. So, traveling deeper into the infinite vacuum of space, the picture of the world
will be repeated and we can not discover anything new.
To learn something new about the universe, we need to study the cosmic frame of reference itself.
Everything is born in the Cosmic Vacuum (thanks to entropy, Heisenberg Uncertainty Principle & quantum fluctuations)
and dies in the Cosmic Vacuum. Without the Cosmic Vacuum there is no place for existence.
But we ignore the study of the infinite Cosmic "emptiness, nothingness, vacuum"
#
Back in the middle of the 18th century, “a fiery substance-phlogiston” was needed to explain chemical reactions,
and in the middle of the 19th century, mechanical analogues (with balls, springs, hooks, etc.) were widely used
to explain Maxwell EM effect.
Physics is much more abstract these days.
Attachments
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Nature Abhors a Vacuum.jpg -
Vacuum-perfect.jpg
