From: mpc755 on
On Dec 8, 7:05 pm, "Inertial" <relativ...(a)rest.com> wrote:
> >> > Gravity, indeed, relates to what
> >> > happens with the ether
>
> So why, if there are two masses sitting in space, does the 'aether' make
> them accelerate toward each other.  But if there is one object, it just sits
> there.  if anything, the presence of one mass displacing aether would push
> the other object away, not bring them closer.

Aether is not at rest when displaced. It pushes back in an attempt to
return to a state of rest. Displaced aether is the reason for the
Casimir Effect. The displaced aether of each of the plates extends
past the other plate. This displaced aether pushes back towards the
plates causing the plates to come together.

'Casimir effect'
http://en.wikipedia.org/wiki/Casimir_effect

"In a simplified view, a "field" in physics may be envisioned as if
space were filled with interconnected vibrating balls and springs, and
the strength of the field can be visualized as the displacement of a
ball from its rest position."

Now, if you remove the nonsense of vibrating balls and springs and
replace them with aether, you have Aether Displacement.

The Sun displaces aether to the outer reaches of the solar system.
This aether is pushing back towards the Sun, keeping the planets in
orbit around the Sun. The Earth is following the path of least
resistance. The Earth's momentum along with the Sun's displaced aether
pushing back towards the Sun and the Earth's displaced aether interact
and keep the Earth in orbit around the Sun.

The Earth displaces aether far past the Moon. This aether is pushing
back towards the Earth, keeping the Moon in orbit around the Earth.
The Moon is following the path of least resistance.
From: BURT on
On Dec 8, 7:40 pm, mpc755 <mpc...(a)gmail.com> wrote:
> On Dec 8, 7:05 pm, "Inertial" <relativ...(a)rest.com> wrote:
>
> > >> > Gravity, indeed, relates to what
> > >> > happens with the ether
>
> > So why, if there are two masses sitting in space, does the 'aether' make
> > them accelerate toward each other.  But if there is one object, it just sits
> > there.  if anything, the presence of one mass displacing aether would push
> > the other object away, not bring them closer.
>
> Aether is not at rest when displaced. It pushes back in an attempt to
> return to a state of rest. Displaced aether is the reason for the
> Casimir Effect. The displaced aether of each of the plates extends
> past the other plate. This displaced aether pushes back towards the
> plates causing the plates to come together.
>
> 'Casimir effect'http://en.wikipedia.org/wiki/Casimir_effect
>
> "In a simplified view, a "field" in physics may be envisioned as if
> space were filled with interconnected vibrating balls and springs, and
> the strength of the field can be visualized as the displacement of a
> ball from its rest position."
>
> Now, if you remove the nonsense of vibrating balls and springs and
> replace them with aether, you have Aether Displacement.
>
> The Sun displaces aether to the outer reaches of the solar system.
> This aether is pushing back towards the Sun, keeping the planets in
> orbit around the Sun. The Earth is following the path of least
> resistance. The Earth's momentum along with the Sun's displaced aether
> pushing back towards the Sun and the Earth's displaced aether interact
> and keep the Earth in orbit around the Sun.
>
> The Earth displaces aether far past the Moon. This aether is pushing
> back towards the Earth, keeping the Moon in orbit around the Earth.
> The Moon is following the path of least resistance.

If the gravity range of the planets reaches the Sun the Sun is going
to have to move as a consequence. But we do not measure the Sun
changing position with regards to any of the planets. The effect would
eventually build up. This is evidence that gravity range is short.
The belief that it gets small in the distance forever is what I
challenge.

Does the aether displacement have a range?

Mitch Raemnsch
From: mpc755 on
Aether is not at rest when displaced. It pushes back in an attempt to
return to a state of rest. Displaced aether is the reason for the
Casimir Effect. The displaced aether of each of the plates extends
past the other plate. This displaced aether pushes back towards the
plates causing the plates to come together.

'Casimir effect'
http://en.wikipedia.org/wiki/Casimir_effect

"In a simplified view, a "field" in physics may be envisioned as if
space were filled with interconnected vibrating balls and springs, and
the strength of the field can be visualized as the displacement of a
ball from its rest position."

Now, if you remove the nonsense of vibrating balls and springs and
replace them with aether, you have Aether Displacement.

The Sun displaces aether to the outer reaches of the solar system.
This aether is pushing back towards the Sun, keeping the planets in
orbit around the Sun. The Earth is following the path of least
resistance. The Earth's momentum along with the Sun's displaced aether
pushing back towards the Sun and the Earth's displaced aether interact
and keep the Earth in orbit around the Sun.

The Earth displaces aether far past the Moon. This aether is pushing
back towards the Earth, keeping the Moon in orbit around the Earth.
The Moon is following the path of least resistance.
From: BURT on
On Dec 8, 7:57 pm, mpc755 <mpc...(a)gmail.com> wrote:
> Aether is not at rest when displaced. It pushes back in an attempt to
> return to a state of rest. Displaced aether is the reason for the
> Casimir Effect. The displaced aether of each of the plates extends
> past the other plate. This displaced aether pushes back towards the
> plates causing the plates to come together.
>
> 'Casimir effect'http://en.wikipedia.org/wiki/Casimir_effect
>
> "In a simplified view, a "field" in physics may be envisioned as if
> space were filled with interconnected vibrating balls and springs, and
> the strength of the field can be visualized as the displacement of a
> ball from its rest position."
>
> Now, if you remove the nonsense of vibrating balls and springs and
> replace them with aether, you have Aether Displacement.
>
> The Sun displaces aether to the outer reaches of the solar system.
> This aether is pushing back towards the Sun, keeping the planets in
> orbit around the Sun. The Earth is following the path of least
> resistance. The Earth's momentum along with the Sun's displaced aether
> pushing back towards the Sun and the Earth's displaced aether interact
> and keep the Earth in orbit around the Sun.
>
> The Earth displaces aether far past the Moon. This aether is pushing
> back towards the Earth, keeping the Moon in orbit around the Earth.
> The Moon is following the path of least resistance.

This is just nonsense. And my question proves it. How is displacement
caused by mass stretching out into the distance?

Mitch Raemsch
From: mpc755 on
On Dec 9, 5:56 am, BURT <macromi...(a)yahoo.com> wrote:
> On Dec 8, 7:57 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
>
>
> > Aether is not at rest when displaced. It pushes back in an attempt to
> > return to a state of rest. Displaced aether is the reason for the
> > Casimir Effect. The displaced aether of each of the plates extends
> > past the other plate. This displaced aether pushes back towards the
> > plates causing the plates to come together.
>
> > 'Casimir effect'http://en.wikipedia.org/wiki/Casimir_effect
>
> > "In a simplified view, a "field" in physics may be envisioned as if
> > space were filled with interconnected vibrating balls and springs, and
> > the strength of the field can be visualized as the displacement of a
> > ball from its rest position."
>
> > Now, if you remove the nonsense of vibrating balls and springs and
> > replace them with aether, you have Aether Displacement.
>
> > The Sun displaces aether to the outer reaches of the solar system.
> > This aether is pushing back towards the Sun, keeping the planets in
> > orbit around the Sun. The Earth is following the path of least
> > resistance. The Earth's momentum along with the Sun's displaced aether
> > pushing back towards the Sun and the Earth's displaced aether interact
> > and keep the Earth in orbit around the Sun.
>
> > The Earth displaces aether far past the Moon. This aether is pushing
> > back towards the Earth, keeping the Moon in orbit around the Earth.
> > The Moon is following the path of least resistance.
>
> This is just nonsense. And my question proves it. How is displacement
> caused by mass stretching out into the distance?
>
> Mitch Raemsch

What happens when you put a bowling ball into a tank of water?