From: Sam Wormley on
On 3/18/10 10:00 AM, mpc755 wrote:
> On Mar 18, 8:47 am, Sam Wormley<sworml...(a)gmail.com> wrote:
>> On 3/18/10 6:10 AM, G. L. Bradford wrote:
>>
>>
>>
>>> Wormy it is not space that is expanding. It is the objects in the
>>> medium that are moving apart wrt each other.
>>
>> The metric expansion of space is the averaged increase of metric (i.e.
>> measured) distance between distant objects in the universe with time.
>>
>> It is an intrinsic expansion—that is, it is defined by the relative
>> separation of parts of the universe and not by motion "outward" into
>> preexisting space. (In other words, the universe is not expanding "into"
>> anything outside of itself).
>>
>> Metric expansion is a key feature of Big Bang cosmology and is modeled
>> mathematically with the FLRW metric. This model is valid in the present
>> era only at relatively large scales (roughly the scale of galactic
>> superclusters and above). At smaller scales matter has clumped together
>> under the influence of gravitational attraction and these clumps do not
>> individually expand, though they continue to recede from one another.
>> The expansion is due partly to inertia (that is, the matter in the
>> universe is separating because it was separating in the past) and partly
>> to a repulsive force of unknown nature, which may be a cosmological
>> constant. Inertia dominated the expansion in the early universe, and
>> according to the ΛCDM model the cosmological constant will dominate in
>> the future. In the present era they contribute in roughly equal proportions.
>>
>> While special relativity constrains objects in the universe from moving
>> faster than the speed of light with respect to each other, there is no
>> such theoretical constraint when space itself is expanding. It is thus
>> possible for two very distant objects to be moving away from each other
>> at a speed greater than the speed of light (meaning that one cannot be
>> observed from the other). The size of the observable universe could thus
>> be smaller than the entire universe.
>>
>> It is also possible for a distance to exceed the speed of light times
>> the age of the universe, which means that light from one part of space
>> generated near the beginning of the Universe might still be arriving at
>> distant locations (hence the cosmic microwave background radiation).
>>
>> Ref:http://en.wikipedia.org/wiki/Metric_expansion_of_space
>
> You must have missed my post.
>

Actually, your posts have pretty much become insignificant.

From: mpc755 on
On Mar 18, 11:17 am, Sam Wormley <sworml...(a)gmail.com> wrote:
> On 3/18/10 10:00 AM, mpc755 wrote:
>
>
>
> > On Mar 18, 8:47 am, Sam Wormley<sworml...(a)gmail.com>  wrote:
> >> On 3/18/10 6:10 AM, G. L. Bradford wrote:
>
> >>> Wormy it is not space that is expanding. It is the objects in the
> >>> medium that are moving apart wrt each other.
>
> >> The metric expansion of space is the averaged increase of metric (i.e.
> >> measured) distance between distant objects in the universe with time.
>
> >> It is an intrinsic expansion—that is, it is defined by the relative
> >> separation of parts of the universe and not by motion "outward" into
> >> preexisting space. (In other words, the universe is not expanding "into"
> >> anything outside of itself).
>
> >> Metric expansion is a key feature of Big Bang cosmology and is modeled
> >> mathematically with the FLRW metric. This model is valid in the present
> >> era only at relatively large scales (roughly the scale of galactic
> >> superclusters and above). At smaller scales matter has clumped together
> >> under the influence of gravitational attraction and these clumps do not
> >> individually expand, though they continue to recede from one another.
> >> The expansion is due partly to inertia (that is, the matter in the
> >> universe is separating because it was separating in the past) and partly
> >> to a repulsive force of unknown nature, which may be a cosmological
> >> constant. Inertia dominated the expansion in the early universe, and
> >> according to the ΛCDM model the cosmological constant will dominate in
> >> the future. In the present era they contribute in roughly equal proportions.
>
> >> While special relativity constrains objects in the universe from moving
> >> faster than the speed of light with respect to each other, there is no
> >> such theoretical constraint when space itself is expanding. It is thus
> >> possible for two very distant objects to be moving away from each other
> >> at a speed greater than the speed of light (meaning that one cannot be
> >> observed from the other). The size of the observable universe could thus
> >> be smaller than the entire universe.
>
> >> It is also possible for a distance to exceed the speed of light times
> >> the age of the universe, which means that light from one part of space
> >> generated near the beginning of the Universe might still be arriving at
> >> distant locations (hence the cosmic microwave background radiation).
>
> >> Ref:http://en.wikipedia.org/wiki/Metric_expansion_of_space
>
> > You must have missed my post.
>
>    Actually, your posts have pretty much become insignificant.

You must have missed my post.

A C-60 molecule is in the slit(s). While the C-60 molecule is in the
slit(s) detectors are placed at the exits to the slits. When there are
detectors at the exits to the slits the C-60 molecule is always
detected exiting a single slit. If the detectors are placed and
removed from the exits to the slits while the C-60 molecule is in the
slit(s) the C-60 molecule creates an interference pattern.

How is this possible with your 'understanding' of nature?

Don't be shy. Go ahead and answer the question.

I will take your next non-answer to be what it is. Admittance you can
not answer the question without absurd nonsense such as the future
determines the past.

In AD, the C-60 molecule has an associated aether displacement wave.
The C-60 molecule always enters and exits a single slit while the
associated aether displacement wave enters and exits the available
slits. The displacement wave creates interference upon exiting the
slits which alters the direction the C-60 molecule travels. Detecting
the C-60 molecule causes decoherence of the associated aether
displacement wave (i.e. turns it into chop) and there is no
interference.

When you answer my thought experiment you will provide evidence you
are not completely full of absurd nonsense.
From: PD on
On Mar 18, 10:03 am, mpc755 <mpc...(a)gmail.com> wrote:
> On Mar 18, 9:46 am, PD <thedraperfam...(a)gmail.com> wrote:
>
>
>
> > On Mar 17, 5:06 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > On Mar 17, 5:59 pm, PD <thedraperfam...(a)gmail.com> wrote:
>
> > > > On Mar 17, 4:51 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > > > The poster I was responding to has finally made it to the step of
> > > > > understand something physical causes gravity. The poster is a QM true
> > > > > believer so it must be excused if the best step the poster can offer
> > > > > is 'quanta is responsible' for gravity.
>
> > > > > The point I was trying to make, which you completely misinterpreted,
> > > > > is if quanta is responsible for gravity then whatever you want to
> > > > > consider the quanta to physically exist as in order for it to be
> > > > > responsible for gravity, light from the sun is physically propagating
> > > > > in quanta.
>
> > > > This is so cute. Note he says that quanta must be physically real, but
> > > > that quantum mechanics (which describes the behavior of quanta) is not
> > > > about stuff that is physically real.
>
> > > You're making my point.
>
> > > Gravity is physically real.
>
> > > Only in your interpretation of the absurd nonsense of QM can gravity
> > > not be physically real.
>
> > > If quanta is responsible for gravity then quanta is physically real
>
> > Of course they are real. And quantum mechanics describes those real
> > things. Quantum mechanics is the study of how quanta (those real
> > things) behave. Thank you.
>
> So, you are walking down the street and you are 'tied' to the Earth
> because quanta is responsible for gravity.

Yes, this seems likely.

> Now it is a bright sunny
> day outside and you are being bombarded by light quanta.

Yes.

> How does
> light quanta interact with gravity quanta?

We don't know for sure, because we don't have a solid model yet for
how gravitational quanta work. This doesn't mean we know nothing. We
do know they interact, and we have observational measurements of how
much.

> Are they one in the same?

No.

> Does the gravity quanta, which physically exists, get out of the way
> for the light quanta?

No, nor do they have to. Quanta are not like a "stuff" that even has
to get out of the way.

>
> Can both light quanta and gravity quanta occupy the same three
> dimensional space simultaneously

Yes. And they are physically real. This happens a lot. In the
atmosphere, nitrogen and oxygen gases both occupy three dimensional
space simultaneously and they don't have to get out of each other's
way. In water, sound waves and light waves pass through the same three-
dimensional space, and they don't have to get out of each other's way
(and they are both quantized). In a wire, electric and magnetic fields
both exist in the same three dimensional space, and they don't have to
get out of each other's way. In the nucleus of the atom, the strong
nuclear force, the weak nuclear force, the electromagnetic force, and
the gravitational force all interact in the same three-dimensional
space, and they don't have to get out of each other's way.

> or is light quanta and gravity quanta
> physically real but do not occupy three dimensional space?
>
> In AD, light waves propagate through the aether. The aether displaced
> by the Earth exerts a pressure towards the Earth keeping you from
> flying off into space. Both gravity quanta and light quanta are states
> of the aether.
>
> > > and light waves from the Sun interact with the quanta responsible for
> > > the gravity associated with the Earth.
>
>

From: PD on
On Mar 18, 10:06 am, mpc755 <mpc...(a)gmail.com> wrote:
> On Mar 18, 9:51 am, PD <thedraperfam...(a)gmail.com> wrote:
>
>
>
> > On Mar 18, 7:01 am, "J. Clarke" <jclarke.use...(a)cox.net> wrote:
>
> > > On 3/17/2010 9:19 PM, Tom Roberts wrote:
>
> > > > mpc755 wrote:
> > > >> On Mar 16, 11:43 pm, Tom Roberts <tjroberts...(a)sbcglobal.net> wrote:
> > > >>> mpc755 wrote:
> > > >>>> 'curved spacetime' is meaningless nonsense in terms of a physical
> > > >>>> description of nature. What is physically being 'curved'? [...]
> > > >>> Nothing "physical" is involved, this is GEOMETRY.
>
> > > >> Not only do we have the absurd nonsense [...]
>
> > > > The "absurd nonsense" is your thinking that you can discuss modern
> > > > physics without any understanding of it whatsoever.
>
> > > I think it's perfectly valid to ask if the curvature of spacetime is
> > > something real or if it's a useful fiction, however asserting a priori
> > > that it is "meaningless nonsense" or that "nothing 'physical' is
> > > involved" are both quite premature.  One trouble I have with
> > > philosophers is that they assert such things and run with them and you
> > > have to whack 'em with a two-by-four to get them to look at their
> > > premise.  Unfortunately the ranks of philosopher wannabees seem to be
> > > considerably larger than then ranks of physicist wannabees who are
> > > actually serious about it.
>
> > And in this particular case, MPC has a preconceived notion about what
> > makes sense and what is absurd, and there is no need (at least in his
> > mind) to test whether that categorization is appropriate.
>
> > PD
>
> And in your mind in order to maintain support of a failed theory you
> have to resort to the future determining the past.
>
> In your mind since you really do not understand what is physically
> occurring in nature your resort to labels such as 'fields' and
> 'virtual' particles.
>
> Yes, I realize you think 'virtual' particles physically exist out of
> nothing and I realize you think a 'field' is physically real. But in
> the reality of nature they are not.

See? You've already made decisions in your mind about what is real and
what is not, what makes sense and what is not, what is absurd and what
is not. And you've not figured out how to test whether those decisions
are right or not. You just make the decisions and go with it.

Scientists don't do that.

>
> The 'field' associated with quanta gravity is aether. The 'virtual'
> particles associated with the Casimir Effect is simply the aether
> displaced by the two plates extends past the other plate and the
> pressure associated with the aether displaced by the two plates
> outside of the plates pushing the plates together is greater then the
> pressure associated with the aether displaced by the two plates which
> exists between the two plates.

From: mpc755 on
On Mar 18, 12:03 pm, PD <thedraperfam...(a)gmail.com> wrote:
> On Mar 18, 10:03 am, mpc755 <mpc...(a)gmail.com> wrote:
>
>
>
> > On Mar 18, 9:46 am, PD <thedraperfam...(a)gmail.com> wrote:
>
> > > On Mar 17, 5:06 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > > On Mar 17, 5:59 pm, PD <thedraperfam...(a)gmail.com> wrote:
>
> > > > > On Mar 17, 4:51 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > > > > The poster I was responding to has finally made it to the step of
> > > > > > understand something physical causes gravity. The poster is a QM true
> > > > > > believer so it must be excused if the best step the poster can offer
> > > > > > is 'quanta is responsible' for gravity.
>
> > > > > > The point I was trying to make, which you completely misinterpreted,
> > > > > > is if quanta is responsible for gravity then whatever you want to
> > > > > > consider the quanta to physically exist as in order for it to be
> > > > > > responsible for gravity, light from the sun is physically propagating
> > > > > > in quanta.
>
> > > > > This is so cute. Note he says that quanta must be physically real, but
> > > > > that quantum mechanics (which describes the behavior of quanta) is not
> > > > > about stuff that is physically real.
>
> > > > You're making my point.
>
> > > > Gravity is physically real.
>
> > > > Only in your interpretation of the absurd nonsense of QM can gravity
> > > > not be physically real.
>
> > > > If quanta is responsible for gravity then quanta is physically real
>
> > > Of course they are real. And quantum mechanics describes those real
> > > things. Quantum mechanics is the study of how quanta (those real
> > > things) behave. Thank you.
>
> > So, you are walking down the street and you are 'tied' to the Earth
> > because quanta is responsible for gravity.
>
> Yes, this seems likely.
>
> > Now it is a bright sunny
> > day outside and you are being bombarded by light quanta.
>
> Yes.
>
> > How does
> > light quanta interact with gravity quanta?
>
> We don't know for sure, because we don't have a solid model yet for
> how gravitational quanta work. This doesn't mean we know nothing. We
> do know they interact, and we have observational measurements of how
> much.
>

In AD, the 'quanta' responsible for gravity and the 'quanta'
responsible for light is aether. If you conceptualize the aether as
consisting of quanta you will advance your understanding of nature.

> > Are they one in the same?
>
> No.
>

Then you will never understand nature. Light waves propagate through
the aether and the pressure associated with the aether displaced by a
massive object is gravity.

So, however you want to define the 'quanta' responsible for gravity
and the 'quanta' associated with light you will never understand
nature if you do not realize they are both the same thing.

> > Does the gravity quanta, which physically exists, get out of the way
> > for the light quanta?
>
> No, nor do they have to. Quanta are not like a "stuff" that even has
> to get out of the way.
>

Correct. Because 'they' are both states of the aether.

>
>
> > Can both light quanta and gravity quanta occupy the same three
> > dimensional space simultaneously
>
> Yes. And they are physically real. This happens a lot. In the
> atmosphere, nitrogen and oxygen gases both occupy three dimensional
> space simultaneously and they don't have to get out of each other's
> way. In water, sound waves and light waves pass through the same three-
> dimensional space, and they don't have to get out of each other's way
> (and they are both quantized).

They are both waves. Light wave propagate through the aether.

> In a wire, electric and magnetic fields
> both exist in the same three dimensional space, and they don't have to
> get out of each other's way.

Yes, because they are both states of the aether.

> In the nucleus of the atom, the strong
> nuclear force, the weak nuclear force, the electromagnetic force, and
> the gravitational force all interact in the same three-dimensional
> space,

Yes, the aether.

> and they don't have to get out of each other's way.
>
> > or is light quanta and gravity quanta
> > physically real but do not occupy three dimensional space?
>
> > In AD, light waves propagate through the aether. The aether displaced
> > by the Earth exerts a pressure towards the Earth keeping you from
> > flying off into space. Both gravity quanta and light quanta are states
> > of the aether.
>
> > > > and light waves from the Sun interact with the quanta responsible for
> > > > the gravity associated with the Earth.
>
>