From: Sam Wormley on
On 8/2/10 9:10 AM, Mathal wrote:
> On Aug 2, 5:26 am, Sam Wormley<sworml...(a)gmail.com> wrote:
>> On 8/2/10 3:24 AM, Autymn D. C. wrote:
>>
>>> BURT is wriht here. BHs are fake:http://twitter.com/alysdexia. And
>>> they couldn't be born in finite time...
>>
>>> -Aut
>>
>> From who's perspective?
>>
>> Physics FAQ: Are There Any Good Books on Relativity Theory?
>> http://math.ucr.edu/home/baez/physics/Administrivia/rel_booklist.html
>
> Time in different frames is slower or faster than in other frames.
> In GR terms the Schwarzchild radius of any mass is like the speed of
> light is to mass in SR terms.
> The closer a mass gets to being inside it's Schwatzchild radius the
> slower time operates relative to when the mass was smaller/or less
> dense. Around this mass approaching it's Schwatzschild radius time
> operates slower too, just not as slow. Yes, of course, the perception
> in the frame is that everything is chugging along at the 'usual' pace,
> but it isn't from any perspective far from the object . From outside
> the event, the event hasn't occured yet, because it hasn't. If you
> understood relativity you would understand that.
> Mathal


<smiling>

I don't think I would notice anything unusual (other than some
tidal forces) as I fell past the Schwarzschild radius of a
supermassive black hole.

My buddies might think it never happened, but their perspective
is different than mine.


From: Curious George on
On Aug 2, 10:10 am, Mathal <mathmusi...(a)gmail.com> wrote:
> On Aug 2, 5:26 am, Sam Wormley <sworml...(a)gmail.com> wrote:
>
> > On 8/2/10 3:24 AM, Autymn D. C. wrote:
>
> > > BURT is wriht here.  BHs are fake:http://twitter.com/alysdexia.  And
> > > they couldn't be born in finite time...
>
> > > -Aut
>
> >    From who's perspective?
>
> >    Physics FAQ: Are There Any Good Books on Relativity Theory?
> >      http://math.ucr.edu/home/baez/physics/Administrivia/rel_booklist.html
>
>    Time in different frames is slower or faster than in other frames.
> In GR terms the Schwarzchild radius of any mass is like the speed of
> light is to mass in SR terms.
>    The closer a mass gets to being inside it's Schwatzchild radius the
> slower time operates relative to when the mass was smaller/or less
> dense. Around this mass approaching it's Schwatzschild radius time
> operates slower too, just not as slow. Yes, of course, the perception
> in the frame is that everything is chugging along at the 'usual' pace,
> but it isn't from any perspective far from the object . From outside
> the event, the event hasn't occured yet, because it hasn't. If you
> understood relativity you would understand that.
>    Mathal



Forgive my naiveness: I am no physicist. But, is this (what Mathal
wrote) not the same as saying that light would be traveling towards us
at the speed of light for ever and never reach us, implying there
would be infinite space between us and the black hole? If no, and
light cannot "escape" a certain gravitational force, then as the OP
says in other words, light having started away from the black hole
(BH), must slow down (for us observing in our "frame") upon reaching
it, come to zero speed, and then accelerate towards the "center" of
that gravitational force, which would imply (zero)X(infinity) > zero?
On the other hand, if we are talking about light having to start off
the BH, then what "pushes" it off initially, given that the BH has no
spacial dimensionns (infinitely dense)so that nothing else can be
residing on the "surface" or "interior" of it?

2)Also, and by the way (while I am at it): When physicists say the
speed of light is 300,000 km/sec, in what "frame of reference" is the
"sec" measured in? How would that "sec" have been different in another
"frame"? How would we know of that other "frame"?

C.G.
From: Ross A. Finlayson on
On Aug 2, 7:10 am, Mathal <mathmusi...(a)gmail.com> wrote:
> On Aug 2, 5:26 am, Sam Wormley <sworml...(a)gmail.com> wrote:
>
> > On 8/2/10 3:24 AM, Autymn D. C. wrote:
>
> > > BURT is wriht here.  BHs are fake:http://twitter.com/alysdexia.  And
> > > they couldn't be born in finite time...
>
> > > -Aut
>
> >    From who's perspective?
>
> >    Physics FAQ: Are There Any Good Books on Relativity Theory?
> >      http://math.ucr.edu/home/baez/physics/Administrivia/rel_booklist.html
>
>    Time in different frames is slower or faster than in other frames.
> In GR terms the Schwarzchild radius of any mass is like the speed of
> light is to mass in SR terms.
>    The closer a mass gets to being inside it's Schwatzchild radius the
> slower time operates relative to when the mass was smaller/or less
> dense. Around this mass approaching it's Schwatzschild radius time
> operates slower too, just not as slow. Yes, of course, the perception
> in the frame is that everything is chugging along at the 'usual' pace,
> but it isn't from any perspective far from the object . From outside
> the event, the event hasn't occured yet, because it hasn't. If you
> understood relativity you would understand that.
>    Mathal


There's an other part too, about the infinite there. The object is a
point singularity, not necessarily the center of time (i.e., separate
reference frames), as objects go into the black hole they go to share
the same reference frame as all the other content of the highly
compressed and stochastically irregular area local to the radius of
the event. Now the event horizon retains information, although of
course there is a theory that the singularity has extra-local
radiation, somehow emitting information. Other concerns and generally
have they don't, but sure they could in terms of generated spaces or
projection. Now, in terms of the organization of the information in
the singularity or black hole, one might consider that it is
fundamentally disorganized or fundamentally organized. Then about the
formation and dissipation of these entities which along with the state
of other massy bodies pinwheel the cosmos, where the center of the
galaxy has a black hole (or otherwise is the center of mass of the
galaxy), that it is thought that sometimes neutron stars implode into
black holes, or that the big bang was just the nearest (and totally
surrounding) event, that could have arbitrarily organized information
in its general reconstitution to help explain why today cosmologists
see galaxies going this way and that compared to as from some center,
i.e. basically that the big bang was everywhere. When the limits of
the instruments help us see that there are running constants instead
of Avogadro's number, or that as the farther radio goes the more space
and "dark" matter, the more information, there apparently is in the
universe that what those instruments each detect, those are effects
(detection multiplies information).

Now, those are effects on the large scale and small scale, where when
experiments determine the size of atomic particles to be smaller the
more closely they are measured, reasonably they're infinitesimals,
mathematically beyond or beneath the finite in scale (say Planck
scale), of course continuum analysis is generally used with reasonable
adjustments from SR/GR using QM which as physicists sometimes like to
note is never wrong (quantum mechanics is never wrong). Yet, quantum
mechanics is just a method of adding together probabilities where it
is the Born interpretation, with Copenhagen. I.e., it is a statistical
model, not ever wrong just misinterpreted in correlation, the
physicist is always wrong in any disagreement between QM and reality.
(In the standard model the particle components go to quarks and
leptons from the subatomic, with electric fields and 14 kinds of
magnetism in organizations of matter, besides gravity.)

So, back to why then black holes function as they do yes the
asymptotics of the theoretical classical behavior of matter compute
the Schwarzchild radius, which then interacts with matter, i.e.
everything within the radius can never escape because gravitation
holds it together, even "massless" light. Now, the smaller the
particles in the black hole could be made by essentially shining a
bright enough light, to measure them, correspondingly via the effect
the black hole could be reversed, i.e., at the extreme in observance
of the shrinking effect of measurement, the event horizon radius of
the point singularity would diminish.

Don't forget that each few years the big bang was longer ago than
that, while science progresses in its refinement of physical
measurement. The age and size of the universe increases with better
measurements.

Basically it seems you have that the information that goes into the
event horizon is projected onto the singularity, and that it preserves
the properties of the continuum, accomodating that in conservation
with having the point move at zero time. Yet, then it would be a
fixed point, and if so relative to all the others, i.e. they would
share a reference frame and so would everything between them. Then
it's a space symmetry, but again that has about the organization of
the information as it is totally compressed and that it becomes
statistical or analyzes from initial and consequent organizations, how
in the infinitesimal together it is real or that in the infinite
universe there are multiple objects. Just the simple facts there give
a theory where real mathematics of the infinite and infinitesimal are
probably in nature explaining why the state of the art in experimental
physics observes both quantum statistics and cosmological measurements
sharing a convenient explanation. Here this reduces, but effect could
be interchanged with time. If it's a singularity then the information
is compressed, otherwise it might as well just be planar, where the
data is scattered on the other side of the point, basically about what
internal organization the singularity maintains from its initial
conditions, towards the effect that occurs from the classical to the
horizon to the singularity.

It should well be presumed that the content of black holes is highly
organized yet as well most energetic. That is to say, imagining how
something could go in and come back out the same, it would have to be
preserved toward a point singularity and then brought right back out,
or go through the arbitrary transform which gets into how much
information and power would be necessary to put stuff in, and later
take it back out the same, bring stuff out, etcetera.

Yeah you figure if it was a spatial point singularity it still has
mass and momentum so it's still just a particle. That is then about
what the radius is, and then here the particle's event radius is
bigger than its mass radius, so the effects that define this point and
sphere and hypersphere help sort the possible dimensions of input,
simply reducing the input definition to moments.

So you're talking now time travel isn't inherently paradoxical but
still it's anisotropic which is simple.

If it exists in nature those are probably natural laws.

As to whether crossing the event horizon of a singularity which well
happens regularly (constant in anti-), most detectable singularity
event horizons with the stationarity would be quite most dissociative
to, general matter (disintegrative).

Warm regards,

Ross Finlayson
From: BURT on
On Aug 2, 12:17 pm, "Ross A. Finlayson" <ross.finlay...(a)gmail.com>
wrote:
> On Aug 2, 7:10 am, Mathal <mathmusi...(a)gmail.com> wrote:
>
>
>
>
>
> > On Aug 2, 5:26 am, Sam Wormley <sworml...(a)gmail.com> wrote:
>
> > > On 8/2/10 3:24 AM, Autymn D. C. wrote:
>
> > > > BURT is wriht here.  BHs are fake:http://twitter.com/alysdexia.  And
> > > > they couldn't be born in finite time...
>
> > > > -Aut
>
> > >    From who's perspective?
>
> > >    Physics FAQ: Are There Any Good Books on Relativity Theory?
> > >      http://math.ucr.edu/home/baez/physics/Administrivia/rel_booklist.html
>
> >    Time in different frames is slower or faster than in other frames.
> > In GR terms the Schwarzchild radius of any mass is like the speed of
> > light is to mass in SR terms.
> >    The closer a mass gets to being inside it's Schwatzchild radius the
> > slower time operates relative to when the mass was smaller/or less
> > dense. Around this mass approaching it's Schwatzschild radius time
> > operates slower too, just not as slow. Yes, of course, the perception
> > in the frame is that everything is chugging along at the 'usual' pace,
> > but it isn't from any perspective far from the object . From outside
> > the event, the event hasn't occured yet, because it hasn't. If you
> > understood relativity you would understand that.
> >    Mathal
>
> There's an other part too, about the infinite there.  The object is a
> point singularity, not necessarily the center of time (i.e., separate
> reference frames), as objects go into the black hole they go to share
> the same reference frame as all the other content of the highly
> compressed and stochastically irregular area local to the radius of
> the event.  Now the event horizon retains information, although of
> course there is a theory that the singularity has extra-local
> radiation, somehow emitting information.  Other concerns and generally
> have they don't, but sure they could in terms of generated spaces or
> projection. Now, in terms of the organization of the information in
> the singularity or black hole, one might consider that it is
> fundamentally disorganized or fundamentally organized.  Then about the
> formation and dissipation of these entities which along with the state
> of other massy bodies pinwheel the cosmos, where the center of the
> galaxy has a black hole (or otherwise is the center of mass of the
> galaxy), that it is thought that sometimes neutron stars implode into
> black holes, or that the big bang was just the nearest (and totally
> surrounding) event, that could have arbitrarily organized information
> in its general reconstitution to help explain why today cosmologists
> see galaxies going this way and that compared to as from some center,
> i.e. basically that the big bang was everywhere.  When the limits of
> the instruments help us see that there are running constants instead
> of Avogadro's number, or that as the farther radio goes the more space
> and "dark" matter, the more information, there apparently is in the
> universe that what those instruments each detect, those are effects
> (detection multiplies information).
>
> Now, those are effects on the large scale and small scale, where when
> experiments determine the size of atomic particles to be smaller the
> more closely they are measured, reasonably they're infinitesimals,
> mathematically beyond or beneath the finite in scale (say Planck
> scale), of course continuum analysis is generally used with reasonable
> adjustments from SR/GR using QM which as physicists sometimes like to
> note is never wrong (quantum mechanics is never wrong).  Yet, quantum
> mechanics is just a method of adding together probabilities where it
> is the Born interpretation, with Copenhagen. I.e., it is a statistical
> model, not ever wrong just misinterpreted in correlation, the
> physicist is always wrong in any disagreement between QM and reality.
> (In the standard model the particle components go to quarks and
> leptons from the subatomic, with electric fields and 14 kinds of
> magnetism in organizations of matter, besides gravity.)
>
> So, back to why then black holes function as they do yes the
> asymptotics of the theoretical classical behavior of matter compute
> the Schwarzchild radius, which then interacts with matter, i.e.
> everything within the radius can never escape because gravitation
> holds it together, even "massless" light.  Now, the smaller the
> particles in the black hole could be made by essentially shining a
> bright enough light, to measure them, correspondingly via the effect
> the black hole could be reversed, i.e., at the extreme in observance
> of the shrinking effect of measurement, the event horizon radius of
> the point singularity would diminish.
>
> Don't forget that each few years the big bang was longer ago than
> that, while science progresses in its refinement of physical
> measurement.  The age and size of the universe increases with better
> measurements.
>
> Basically it seems you have that the information that goes into the
> event horizon is projected onto the singularity, and that it preserves
> the properties of the continuum, accomodating that in conservation
> with having the point move at zero time.  Yet, then it would be a
> fixed point, and if so relative to all the others, i.e. they would
> share a reference frame and so would everything between them.  Then
> it's a space symmetry, but again that has about the organization of
> the information as it is totally compressed and that it becomes
> statistical or analyzes from initial and consequent organizations, how
> in the infinitesimal together it is real or that in the infinite
> universe there are multiple objects.  Just the simple facts there give
> a theory where real mathematics of the infinite and infinitesimal are
> probably in nature explaining why the state of the art in experimental
> physics observes both quantum statistics and cosmological measurements
> sharing a convenient explanation.  Here this reduces, but effect could
> be interchanged with time.  If it's a singularity then the information
> is compressed, otherwise it might as well just be planar, where the
> data is scattered on the other side of the point, basically about what
> internal organization the singularity maintains from its initial
> conditions, towards the effect that occurs from the classical to the
> horizon to the singularity.
>
> It should well be presumed that the content of black holes is highly
> organized yet as well most energetic.  That is to say, imagining how
> something could go in and come back out the same, it would have to be
> preserved toward a point singularity and then brought right back out,
> or go through the arbitrary transform which gets into how much
> information and power would be necessary to put stuff in, and later
> take it back out the same, bring stuff out, etcetera.
>
> Yeah you figure if it was a spatial point singularity it still has
> mass and momentum so it's still just a particle.  That is then about
> what the radius is, and then here the particle's event radius is
> bigger than its mass radius, so the effects that define this point and
> sphere and hypersphere help sort the possible dimensions of input,
> simply reducing the input definition to moments.
>
> So you're talking now time travel isn't inherently paradoxical but
> still it's anisotropic which is simple.
>
> If it exists in nature those are probably natural laws.
>
> As to whether crossing the event horizon of a singularity which well
> happens regularly (constant in anti-), most detectable singularity
> event horizons with the stationarity would be quite most dissociative
> to, general matter (disintegrative).
>
> Warm regards,
>
> Ross Finlayson- Hide quoted text -
>
> - Show quoted text -

There can be no time if time ended at the event horizon.
There would be infinite weight of energy at singulrity.

Mitch Raemsch
From: Ross A. Finlayson on
On Aug 2, 2:53 pm, BURT <macromi...(a)yahoo.com> wrote:
> On Aug 2, 12:17 pm, "Ross A. Finlayson" <ross.finlay...(a)gmail.com>
> wrote:
>
>
>
> > On Aug 2, 7:10 am, Mathal <mathmusi...(a)gmail.com> wrote:
>
> > > On Aug 2, 5:26 am, Sam Wormley <sworml...(a)gmail.com> wrote:
>
> > > > On 8/2/10 3:24 AM, Autymn D. C. wrote:
>
> > > > > BURT is wriht here.  BHs are fake:http://twitter.com/alysdexia.  And
> > > > > they couldn't be born in finite time...
>
> > > > > -Aut
>
> > > >    From who's perspective?
>
> > > >    Physics FAQ: Are There Any Good Books on Relativity Theory?
> > > >      http://math.ucr.edu/home/baez/physics/Administrivia/rel_booklist.html
>
> > >    Time in different frames is slower or faster than in other frames.
> > > In GR terms the Schwarzchild radius of any mass is like the speed of
> > > light is to mass in SR terms.
> > >    The closer a mass gets to being inside it's Schwatzchild radius the
> > > slower time operates relative to when the mass was smaller/or less
> > > dense. Around this mass approaching it's Schwatzschild radius time
> > > operates slower too, just not as slow. Yes, of course, the perception
> > > in the frame is that everything is chugging along at the 'usual' pace,
> > > but it isn't from any perspective far from the object . From outside
> > > the event, the event hasn't occured yet, because it hasn't. If you
> > > understood relativity you would understand that.
> > >    Mathal
>
> > There's an other part too, about the infinite there.  The object is a
> > point singularity, not necessarily the center of time (i.e., separate
> > reference frames), as objects go into the black hole they go to share
> > the same reference frame as all the other content of the highly
> > compressed and stochastically irregular area local to the radius of
> > the event.  Now the event horizon retains information, although of
> > course there is a theory that the singularity has extra-local
> > radiation, somehow emitting information.  Other concerns and generally
> > have they don't, but sure they could in terms of generated spaces or
> > projection. Now, in terms of the organization of the information in
> > the singularity or black hole, one might consider that it is
> > fundamentally disorganized or fundamentally organized.  Then about the
> > formation and dissipation of these entities which along with the state
> > of other massy bodies pinwheel the cosmos, where the center of the
> > galaxy has a black hole (or otherwise is the center of mass of the
> > galaxy), that it is thought that sometimes neutron stars implode into
> > black holes, or that the big bang was just the nearest (and totally
> > surrounding) event, that could have arbitrarily organized information
> > in its general reconstitution to help explain why today cosmologists
> > see galaxies going this way and that compared to as from some center,
> > i.e. basically that the big bang was everywhere.  When the limits of
> > the instruments help us see that there are running constants instead
> > of Avogadro's number, or that as the farther radio goes the more space
> > and "dark" matter, the more information, there apparently is in the
> > universe that what those instruments each detect, those are effects
> > (detection multiplies information).
>
> > Now, those are effects on the large scale and small scale, where when
> > experiments determine the size of atomic particles to be smaller the
> > more closely they are measured, reasonably they're infinitesimals,
> > mathematically beyond or beneath the finite in scale (say Planck
> > scale), of course continuum analysis is generally used with reasonable
> > adjustments from SR/GR using QM which as physicists sometimes like to
> > note is never wrong (quantum mechanics is never wrong).  Yet, quantum
> > mechanics is just a method of adding together probabilities where it
> > is the Born interpretation, with Copenhagen. I.e., it is a statistical
> > model, not ever wrong just misinterpreted in correlation, the
> > physicist is always wrong in any disagreement between QM and reality.
> > (In the standard model the particle components go to quarks and
> > leptons from the subatomic, with electric fields and 14 kinds of
> > magnetism in organizations of matter, besides gravity.)
>
> > So, back to why then black holes function as they do yes the
> > asymptotics of the theoretical classical behavior of matter compute
> > the Schwarzchild radius, which then interacts with matter, i.e.
> > everything within the radius can never escape because gravitation
> > holds it together, even "massless" light.  Now, the smaller the
> > particles in the black hole could be made by essentially shining a
> > bright enough light, to measure them, correspondingly via the effect
> > the black hole could be reversed, i.e., at the extreme in observance
> > of the shrinking effect of measurement, the event horizon radius of
> > the point singularity would diminish.
>
> > Don't forget that each few years the big bang was longer ago than
> > that, while science progresses in its refinement of physical
> > measurement.  The age and size of the universe increases with better
> > measurements.
>
> > Basically it seems you have that the information that goes into the
> > event horizon is projected onto the singularity, and that it preserves
> > the properties of the continuum, accomodating that in conservation
> > with having the point move at zero time.  Yet, then it would be a
> > fixed point, and if so relative to all the others, i.e. they would
> > share a reference frame and so would everything between them.  Then
> > it's a space symmetry, but again that has about the organization of
> > the information as it is totally compressed and that it becomes
> > statistical or analyzes from initial and consequent organizations, how
> > in the infinitesimal together it is real or that in the infinite
> > universe there are multiple objects.  Just the simple facts there give
> > a theory where real mathematics of the infinite and infinitesimal are
> > probably in nature explaining why the state of the art in experimental
> > physics observes both quantum statistics and cosmological measurements
> > sharing a convenient explanation.  Here this reduces, but effect could
> > be interchanged with time.  If it's a singularity then the information
> > is compressed, otherwise it might as well just be planar, where the
> > data is scattered on the other side of the point, basically about what
> > internal organization the singularity maintains from its initial
> > conditions, towards the effect that occurs from the classical to the
> > horizon to the singularity.
>
> > It should well be presumed that the content of black holes is highly
> > organized yet as well most energetic.  That is to say, imagining how
> > something could go in and come back out the same, it would have to be
> > preserved toward a point singularity and then brought right back out,
> > or go through the arbitrary transform which gets into how much
> > information and power would be necessary to put stuff in, and later
> > take it back out the same, bring stuff out, etcetera.
>
> > Yeah you figure if it was a spatial point singularity it still has
> > mass and momentum so it's still just a particle.  That is then about
> > what the radius is, and then here the particle's event radius is
> > bigger than its mass radius, so the effects that define this point and
> > sphere and hypersphere help sort the possible dimensions of input,
> > simply reducing the input definition to moments.
>
> > So you're talking now time travel isn't inherently paradoxical but
> > still it's anisotropic which is simple.
>
> > If it exists in nature those are probably natural laws.
>
> > As to whether crossing the event horizon of a singularity which well
> > happens regularly (constant in anti-), most detectable singularity
> > event horizons with the stationarity would be quite most dissociative
> > to, general matter (disintegrative).
>
> > Warm regards,
>
> > Ross Finlayson- Hide quoted text -
>
> > - Show quoted text -
>
> There can be no time if time ended at the event horizon.
> There would be infinite weight of energy at singulrity.
>
> Mitch Raemsch

Yeah but it's infinitely attenuated anywhere but the center, then
there are still points with then there being generally the "immobile
celestial spheres" that often describe conservation in parallel
transport with simple conservation generally.

There's some consideration about there being "no time" beyond the
event horizon, in particularly organized regimes.

The thing to figure out is from the first principles of the
polydimensional real numbers the general polydimensional componentry
of for example the simple space x time read-out, which of course would
be approximative, with working towards more mathematics for path
integrals. (Recently I read an article abstract that there was a
formulaic represenations and new formulaic representations for path
integrals, here I am as well interested in some fundamental features
of these approximative and integrative forms).

Here that is where I would see a direction for research in why in
according with general principles and other observed and deduced
phenomena, effects, that for example the electron and photon
diffraction on the plane about the sun is half or twice the expected
value, compared to their measurements multi-axially.

Warm regards,

Ross Finlayson