From: Androcles on

"Tom Adams" <tadamsmar(a)yahoo.com> wrote in message
news:7a85b85e-8e57-4e27-9407-a69b05d1b03b(a)r36g2000yqm.googlegroups.com...
On Apr 8, 4:04 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
> "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> news:a779de06-faa9-4cd0-85df-8ee04f9aedf7(a)r18g2000yqd.googlegroups.com...
> On Apr 8, 12:06 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> >news:4512a6c4-1d93-40b6-bc7e-84b200f3c1fb(a)u31g2000yqb.googlegroups.com...
> > On Apr 7, 10:05 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > >news:3cfbbdd8-1c7e-4113-9ea9-d9ee6a4cf187(a)g30g2000yqc.googlegroups.com...
> > > On Apr 7, 3:21 am, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > > >news:827aa470-d686-4b02-a943-ada1caebe193(a)g30g2000yqc.googlegroups.com...
> > > > On Mar 11, 11:35 am, GSS <gurcharn_san...(a)yahoo.com> wrote:
>
> > > > > As per Newtonian notion of absolute space and time, clocks can be
> > > > > synchronized in absolute terms such that identical precision
> > > > > atomic
> > > > > clocks located anywhere within the solar system and in any state
> > > > > of
> > > > > motion, will read the same time t1 when a standard master clock
> > > > > reads
> > > > > t1. This notion of absolute clock synchronization implies the
> > > > > notion
> > > > > of absolute simultaneity.
>
> > > > > However, as per SR, spatial distance and time measurements have
> > > > > been
> > > > > rendered 'relative' and cannot be the same value for different
> > > > > observers in different states of motion. As per SR the notion of
> > > > > global 'absolute simultaneity' is fundamentally invalid for
> > > > > different
> > > > > observers in different states of motion. Therefore, the notion of
> > > > > global 'absolute clock synchronization' (in contrast to e-
> > > > > synchronization) is no longer valid in SR.
>
> > > > > Since the term 'absolute clock synchronization' is often used in
> > > > > discussions, I would like to request some Relativity experts to
> > > > > kindly
> > > > > clarify the precise definition of absolute clock synchronization
> > > > > in
> > > > > SR. Kindly illustrate the procedure, through some 'thought
> > > > > experiment'
> > > > > or 'gedanken', to achieve absolute clock synchronization for all
> > > > > observers in different states of motion within our solar system.
>
> > > > > Further, I also need some expert opinion on the following
> > > > > situation,
> > > > > involving clock synchronization.
>
> > > > > Two identical precision atomic clocks are positioned side by side
> > > > > at
> > > > > point A on the surface of earth and mutually synchronized to
> > > > > ensure
> > > > > that
> > > > > (a) their clock rates or frequencies are exactly matched or
> > > > > synchronized
> > > > > (b) their instantaneous timing offsets are eliminated to ensure
> > > > > that
> > > > > a
> > > > > common trigger pulse yields the same timing reading t1 from both
> > > > > clocks.
>
> > > > > Assuming the inherent drift of the two atomic clocks is identical
> > > > > and
> > > > > well within 100 ps per day, it can be demonstrated that while the
> > > > > two
> > > > > clocks remain side by side, their synchronization, after a period
> > > > > of
> > > > > one day, is retained at well within one ns accuracy.
>
> > > > > Let us shift one of the synchronized atomic clocks to a position B
> > > > > such that distance AB is about 30 km.
>
> > > > Stop right there. You are outside of the scope of SR. All
> > > > acceleration
> > > > is outside the scope. SR cannot address your question.
>
> > > > Strictly speaking, the twin paradox is not part of SR since in
> > > > involves acceleration. The space-time paths that the twins take do
> > > > involve different elapsed times in a reference frame, but taking one
> > > > of the paths involves acceleration.
> > > > ===========================================
> > > > Stop right there.
> > > > Strictly speaking, the twin paradox is very much part of SR since it
> > > > does
> > > > NOT involve acceleration.
> > > > The outbound journey is at velocity v and the inbound is at
> > > > velocity -v,
> > > > the
> > > > path is a two-sided polygon.
>
> > > Yes, but the twin has to go from v to -v.
> > > ======================================
> > > Not relevant, v is squared in tau = t * sqrt(1-v^2/c^2),
> > > so (-v)^2 = v^2. Cars go around oval race tracks without
> > > changing speed all the time, reversing their velocity.
> > > ======================================
>
> > > > "If we assume that the result proved for a polygonal line is also
> > > > valid
> > > > for
> > > > a continuously curved line, we arrive at this result: If one of two
> > > > synchronous clocks at A is moved in a closed curve with constant
> > > > velocity
> > > > until it returns to A, the journey lasting t seconds, then by the
> > > > clock
> > > > which has remained at rest the travelled clock on its arrival at A
> > > > will
> > > > be
> > > > 1/2 t v^2/c^2 second slow." -- Einstein, 1905, "On the
> > > > Electrodynamics
> > > > of
> > > > Moving Bodies".
>
> > > Yeah, it's in the paper. But there is acceleration.
> > > =======================================
> > > If there were then its duration and distance would be pertinent.
> > > Unless you can state their relevance then acceleration is just so
> > > much hand-waving, like Gordon Brown dog-paddling the economy
> > > as he sinks, flapping his paws up and down and saying "No",
> > > and "Should" without answering any questions.
>
> > > Einstein claims his result is proved for a polygonal line and a
> > > continuous curved line, there is no change in SPEED (not velocity)
> > > as the ship swings around the back of the star and returns to Earth.
> > > He contradicts his own xi = x'/sqrt(1-v^2/c^2), eta = y, zeta = z,
> > > but that's normal for his nonsense.
> > > =======================================
>
> > > > Thence we conclude that clock B (having travelled and being younger
> > > > than
> > > > clock A) meets clock A before clock A meets clock B. The clock are
> > > > twin
> > > > clocks, and in real physics A meets B when B meets A. That's the
> > > > paradox.
>
> > > No, there is no real paradox.
> > > ====================================================
> > > Oh yes there is,
> > >http://www.merriam-webster.com/dictionary/paradox
>
> > > 2 a : a statement that is seemingly contradictory or opposed to common
> > > sense
> > > and yet is perhaps true
> > > b : a self-contradictory statement that at first seems true
> > > c : an argument that apparently derives self-contradictory conclusions
> > > by
> > > valid deduction from acceptable premises
>
> > > As the ship goes around turns 2 and 3 it travels at v = 0 when u =
> > > <unchanged speed>,
> > > so
> > > eta = y'/sqrt(1-u^2/c^2)
> > > and NOT
> > > eta = y
> > > Einstein wasn't bright enough to know the difference between speed
> > > and velocity, he was too busy reading sci-fi in school.
> > > ====================================================
>
> > > One twin accelerated and the other did not. You can't just reverse A
> > > and B.
> > > ===================================================
>
> > > Einstein can! He can do as he likes, He's a god. He can defy the laws
> > > of
> > > physics. He's holy, a genius.
>
> > The important thing is that *you* can't reverse A and B because they
> > took
> > different paths in space-time. No inertial frame will consider these
> > two paths to be equivalent.
>
> > Einstein did not reverse them either.
> > ==================================================
>
> > The important thing is
> > "Take, for example, the reciprocal electrodynamic action of a magnet and
> > a
> > conductor. The observable phenomenon here depends only on the relative
> > motion of the conductor and the magnet...
> > Examples of this sort, yada, yada, yada... will hereafter be called the
> > ``Principle of Relativity''
> > Ref:
> > ON THE ELECTRODYNAMICS
> > OF MOVING BODIES
> > by A. Einstein
> > June 30, 1905
> > Einstein does reverse A and B (when it suits him).
>
> > The important thing is Humpty Roberts has just told you SR can handle
> > acceleration
> > just fine and you've agreed with him, and here you claim acceleration is
> > required. That's a paradox, and the PoR requires that A and B can be
> > reversed.
>
> No, the PoR makes speed relative. It does not make acceleration
> relative.
> ====================================================
> Yes, the PoR makes speed relative. No, it does make acceleration
> relative since acceleration is rate of change of velocity and velocity is
> relative. If the Earth goes away from the ship and then returns to
> the ship, which is exactly what those aboard the ship see, then the
> Earth changed its velocity and therefore accelerated.
> The PoR requires the station to come to the train.
>
> ====================================================
> I agreed that SR calculations might be able to handle acceleration. I
> meant that it might be able to handle some calculations or inferences
> about acceleration.
>
> ====================================================
> No, "Might be" is handwaving. Humpty Roberts is very good at it but
> hopeless
> at mathematics. No, I do not agree that SR calculations might be able to
> handle
> acceleration, so where does that leave us? No, We should agree to differ?
> No, Not at all, you have the burden of proof, its your claim. No, This is
> physics and mathematics, not religion where faith applies.
>
> ====================================================
> I was not agreeing that the PoR applies to acceleration. It clearly
> does not
> apply to acceleration.
> ====================================================
>
> No, CLEARLY it DOES, as I've proven above. No, Acceleration is rate of
> change of velocity and velocity is relative. No, The station comes to the
> train.
> No, Do not confuse force with rate of change of velocity, in case you are
> thinking of doing so. No, In the frame of reference of the train, the
> station
> accelerates.
> ====================================================
> All inertial frames will agree about which
> clocks have accelerated and which clocks have not accelerated, the PoR
> does not apply.
> ====================================================
> No, A team of scientists working under the direction of researchers from
> the
> University of Sussex have recently discovered that Einstein did not say
> "inertial". No, Here is a copy of their experimental results.
>
> http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG
>
> "If at the points A and B of K there are stationary clocks which, viewed
> in
> the stationary system, are synchronous; and if the clock at A is moved
> with
> the velocity v along the line AB to B, then on its arrival at B the two
> clocks no longer synchronize, but the clock moved from A to B lags behind
> the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
> fourth and higher order), t being the time occupied in the journey from A
> to
> B.
> It is at once apparent that this result still holds good if the clock
> moves
> from A to B in any polygonal line, and also when the points A and B
> coincide.
>
> If we assume that the result proved for a polygonal line is also valid for
> a
> continuously curved line, we arrive at this result: If one of two
> synchronous clocks at A is moved in a closed curve with constant velocity
> until it returns to A, the journey lasting t seconds, then by the clock
> which has remained at rest the travelled clock on its arrival at A will be
> 1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
> equator must go more slowly, by a very small amount, than a precisely
> similar clock situated at one of the poles under otherwise identical
> conditions."
>
> No, A continuous curve is not inertial by any stretch of the imagination.
>
> No, "Inertial" isn't relevant, and Einstein did not mean inertial.
> No, You are handwaving.
>
> ===================================================
>
> That is, given any curve or piecewise line in space-time, all inertial
> frames
> will agree on whether that line represents acceleration or not.
>
> Acceleration = the line is not straight in space-time. Simple as
> that.
> =============================================
> No, Einstein did not say "space-time" either.
> No, The "space-time curve" of the station is reflected in the frame of the
> train.
> No, In any event, a "spacetime diagram" is a distance/time graph with the
> axes reversed to promote bullshit. No, Simple as that. No, You are
> handwaving.
>
> > > ===================================================
> > > You can demonstrate the so-called "paradox" within SR by having the
> > > clock traveling at v pass close to another clock traveling back at -
> > > v. When they are close together they can synchronize. But when the
> > > clock traveling at -v gets back to the clock at rest, it will now be
> > > "younger" (less time ticked off) demonstrating that one path through
> > > space-time gets to the future faster than the other.
> > > ====================================================
> > > That's what I said, B meets A before A meets B. It's a whole lot
> > > harder to do than mere instant acceleration in zero time.
>
> > > >http://www.merriam-webster.com/dictionary/paradox
>
> > > > 2 a : a statement that is seemingly contradictory or opposed to
> > > > common
> > > > sense
> > > > and yet is perhaps true
>
> > > > b : a self-contradictory statement that at first seems true
>
> > > > c : an argument that apparently derives self-contradictory
> > > > conclusions
> > > > by
> > > > valid deduction from acceptable premises
>
> > > > No need for any word salad about 'synchronized' or 'spacetime' or
> > > > 'acceleration', the paradox is: B meets A before A meets B,
> > > > contradictory
> > > > to
> > > > the acceptable premise that A meets B when B meets A.
>
> > > > ================================================

The inertial frames
===================================================

No, it went right over the top your head, didn't it?
No, A team of scientists working under the direction of researchers from the
University of Sussex have recently discovered that Einstein did not say
"inertial". No, Here is a copy of their experimental results.

http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG

"If at the points A and B of K there are stationary clocks which, viewed in
the stationary system, are synchronous; and if the clock at A is moved with
the velocity v along the line AB to B, then on its arrival at B the two
clocks no longer synchronize, but the clock moved from A to B lags behind
the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
fourth and higher order), t being the time occupied in the journey from A
to
B.
It is at once apparent that this result still holds good if the clock moves
from A to B in any polygonal line, and also when the points A and B
coincide.

If we assume that the result proved for a polygonal line is also valid for
a
continuously curved line, we arrive at this result: If one of two
synchronous clocks at A is moved in a closed curve with constant velocity
until it returns to A, the journey lasting t seconds, then by the clock
which has remained at rest the travelled clock on its arrival at A will be
1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
equator must go more slowly, by a very small amount, than a precisely
similar clock situated at one of the poles under otherwise identical
conditions."

No, A continuous curve is not inertial by any stretch of the imagination.
No, "Inertial" isn't relevant, and Einstein did not mean inertial.
No, You are handwaving.


From: Tom Adams on
On Apr 8, 8:23 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
> "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> news:7a85b85e-8e57-4e27-9407-a69b05d1b03b(a)r36g2000yqm.googlegroups.com...
> On Apr 8, 4:04 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> >news:a779de06-faa9-4cd0-85df-8ee04f9aedf7(a)r18g2000yqd.googlegroups.com....
> > On Apr 8, 12:06 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > >news:4512a6c4-1d93-40b6-bc7e-84b200f3c1fb(a)u31g2000yqb.googlegroups.com....
> > > On Apr 7, 10:05 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > > >news:3cfbbdd8-1c7e-4113-9ea9-d9ee6a4cf187(a)g30g2000yqc.googlegroups.com...
> > > > On Apr 7, 3:21 am, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > > > >news:827aa470-d686-4b02-a943-ada1caebe193(a)g30g2000yqc.googlegroups..com...
> > > > > On Mar 11, 11:35 am, GSS <gurcharn_san...(a)yahoo.com> wrote:
>
> > > > > > As per Newtonian notion of absolute space and time, clocks can be
> > > > > > synchronized in absolute terms such that identical precision
> > > > > > atomic
> > > > > > clocks located anywhere within the solar system and in any state
> > > > > > of
> > > > > > motion, will read the same time t1 when a standard master clock
> > > > > > reads
> > > > > > t1. This notion of absolute clock synchronization implies the
> > > > > > notion
> > > > > > of absolute simultaneity.
>
> > > > > > However, as per SR, spatial distance and time measurements have
> > > > > > been
> > > > > > rendered 'relative' and cannot be the same value for different
> > > > > > observers in different states of motion. As per SR the notion of
> > > > > > global 'absolute simultaneity' is fundamentally invalid for
> > > > > > different
> > > > > > observers in different states of motion. Therefore, the notion of
> > > > > > global 'absolute clock synchronization' (in contrast to e-
> > > > > > synchronization) is no longer valid in SR.
>
> > > > > > Since the term 'absolute clock synchronization' is often used in
> > > > > > discussions, I would like to request some Relativity experts to
> > > > > > kindly
> > > > > > clarify the precise definition of absolute clock synchronization
> > > > > > in
> > > > > > SR. Kindly illustrate the procedure, through some 'thought
> > > > > > experiment'
> > > > > > or 'gedanken', to achieve absolute clock synchronization for all
> > > > > > observers in different states of motion within our solar system..
>
> > > > > > Further, I also need some expert opinion on the following
> > > > > > situation,
> > > > > > involving clock synchronization.
>
> > > > > > Two identical precision atomic clocks are positioned side by side
> > > > > > at
> > > > > > point A on the surface of earth and mutually synchronized to
> > > > > > ensure
> > > > > > that
> > > > > > (a) their clock rates or frequencies are exactly matched or
> > > > > > synchronized
> > > > > > (b) their instantaneous timing offsets are eliminated to ensure
> > > > > > that
> > > > > > a
> > > > > > common trigger pulse yields the same timing reading t1 from both
> > > > > > clocks.
>
> > > > > > Assuming the inherent drift of the two atomic clocks is identical
> > > > > > and
> > > > > > well within 100 ps per day, it can be demonstrated that while the
> > > > > > two
> > > > > > clocks remain side by side, their synchronization, after a period
> > > > > > of
> > > > > > one day, is retained at well within one ns accuracy.
>
> > > > > > Let us shift one of the synchronized atomic clocks to a position B
> > > > > > such that distance AB is about 30 km.
>
> > > > > Stop right there. You are outside of the scope of SR. All
> > > > > acceleration
> > > > > is outside the scope. SR cannot address your question.
>
> > > > > Strictly speaking, the twin paradox is not part of SR since in
> > > > > involves acceleration. The space-time paths that the twins take do
> > > > > involve different elapsed times in a reference frame, but taking one
> > > > > of the paths involves acceleration.
> > > > > ===========================================
> > > > > Stop right there.
> > > > > Strictly speaking, the twin paradox is very much part of SR since it
> > > > > does
> > > > > NOT involve acceleration.
> > > > > The outbound journey is at velocity v and the inbound is at
> > > > > velocity -v,
> > > > > the
> > > > > path is a two-sided polygon.
>
> > > > Yes, but the twin has to go from v to -v.
> > > > ======================================
> > > > Not relevant, v is squared in tau = t * sqrt(1-v^2/c^2),
> > > > so (-v)^2 = v^2. Cars go around oval race tracks without
> > > > changing speed all the time, reversing their velocity.
> > > > ======================================
>
> > > > > "If we assume that the result proved for a polygonal line is also
> > > > > valid
> > > > > for
> > > > > a continuously curved line, we arrive at this result: If one of two
> > > > > synchronous clocks at A is moved in a closed curve with constant
> > > > > velocity
> > > > > until it returns to A, the journey lasting t seconds, then by the
> > > > > clock
> > > > > which has remained at rest the travelled clock on its arrival at A
> > > > > will
> > > > > be
> > > > > 1/2 t v^2/c^2 second slow." -- Einstein, 1905, "On the
> > > > > Electrodynamics
> > > > > of
> > > > > Moving Bodies".
>
> > > > Yeah, it's in the paper. But there is acceleration.
> > > > =======================================
> > > > If there were then its duration and distance would be pertinent.
> > > > Unless you can state their relevance then acceleration is just so
> > > > much hand-waving, like Gordon Brown dog-paddling the economy
> > > > as he sinks, flapping his paws up and down and saying "No",
> > > > and "Should" without answering any questions.
>
> > > > Einstein claims his result is proved for a polygonal line and a
> > > > continuous curved line, there is no change in SPEED (not velocity)
> > > > as the ship swings around the back of the star and returns to Earth..
> > > > He contradicts his own xi = x'/sqrt(1-v^2/c^2), eta = y, zeta = z,
> > > > but that's normal for his nonsense.
> > > > =======================================
>
> > > > > Thence we conclude that clock B (having travelled and being younger
> > > > > than
> > > > > clock A) meets clock A before clock A meets clock B. The clock are
> > > > > twin
> > > > > clocks, and in real physics A meets B when B meets A. That's the
> > > > > paradox.
>
> > > > No, there is no real paradox.
> > > > ====================================================
> > > > Oh yes there is,
> > > >http://www.merriam-webster.com/dictionary/paradox
>
> > > > 2 a : a statement that is seemingly contradictory or opposed to common
> > > > sense
> > > > and yet is perhaps true
> > > > b : a self-contradictory statement that at first seems true
> > > > c : an argument that apparently derives self-contradictory conclusions
> > > > by
> > > > valid deduction from acceptable premises
>
> > > > As the ship goes around turns 2 and 3 it travels at v = 0 when u =
> > > > <unchanged speed>,
> > > > so
> > > > eta = y'/sqrt(1-u^2/c^2)
> > > > and NOT
> > > > eta = y
> > > > Einstein wasn't bright enough to know the difference between speed
> > > > and velocity, he was too busy reading sci-fi in school.
> > > > ====================================================
>
> > > > One twin accelerated and the other did not. You can't just reverse A
> > > > and B.
> > > > ===================================================
>
> > > > Einstein can! He can do as he likes, He's a god. He can defy the laws
> > > > of
> > > > physics. He's holy, a genius.
>
> > > The important thing is that *you* can't reverse A and B because they
> > > took
> > > different paths in space-time. No inertial frame will consider these
> > > two paths to be equivalent.
>
> > > Einstein did not reverse them either.
> > > ==================================================
>
> > > The important thing is
> > > "Take, for example, the reciprocal electrodynamic action of a magnet and
> > > a
> > > conductor. The observable phenomenon here depends only on the relative
> > > motion of the conductor and the magnet...
> > > Examples of this sort, yada, yada, yada... will hereafter be called the
> > > ``Principle of Relativity''
> > > Ref:
> > > ON THE ELECTRODYNAMICS
> > > OF MOVING BODIES
> > > by A. Einstein
> > > June 30, 1905
> > > Einstein does reverse A and B (when it suits him).
>
> > > The important thing is Humpty Roberts has just told you SR can handle
> > > acceleration
> > > just fine and you've agreed with him, and here you claim acceleration is
> > > required. That's a paradox, and the PoR requires that A and B can be
> > > reversed.
>
> > No, the PoR makes speed relative. It does not make acceleration
> > relative.
> > ====================================================
> > Yes, the PoR makes speed relative. No, it does make acceleration
> > relative since acceleration is rate of change of velocity and velocity is
> > relative. If the Earth goes away from the ship and then returns to
> > the ship, which is exactly what those aboard the ship see, then the
> > Earth changed its velocity and therefore accelerated.
> > The PoR requires the station to come to the train.
>
> > ====================================================
> > I agreed that SR calculations might be able to handle acceleration. I
> > meant that it might be able to handle some calculations or inferences
> > about acceleration.
>
> > ====================================================
> > No, "Might be" is handwaving. Humpty Roberts is very good at it but
> > hopeless
> > at mathematics. No, I do not agree that SR calculations might be able to
> > handle
> > acceleration, so where does that leave us? No, We should agree to differ?
> > No, Not at all, you have the burden of proof, its your claim. No, This is
> > physics and mathematics, not religion where faith applies.
>
> > ====================================================
> > I was not agreeing that the PoR applies to acceleration. It clearly
> > does not
> > apply to acceleration.
> > ====================================================
>
> > No, CLEARLY it DOES, as I've proven above. No, Acceleration is rate of
> > change of velocity and velocity is relative. No, The station comes to the
> > train.
> > No, Do not confuse force with rate of change of velocity, in case you are
> > thinking of doing so. No, In the frame of reference of the train, the
> > station
> > accelerates.
> > ====================================================
> > All inertial frames will agree about which
> > clocks have accelerated and which clocks have not accelerated, the PoR
> > does not apply.
> > ====================================================
> > No, A team of scientists working under the direction of researchers from
> > the
> > University of Sussex have recently discovered that Einstein did not say
> > "inertial". No, Here is a copy of their experimental results.
>
> >http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG
>
> > "If at the points A and B of K there are stationary clocks which, viewed
> > in
> > the stationary system, are synchronous; and if the clock at A is moved
> > with
> > the velocity v along the line AB to B, then on its arrival at B the two
> > clocks no longer synchronize, but the clock moved from A to B lags behind
> > the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
> > fourth and higher order), t being the time occupied in the journey from A
> > to
> > B.
> > It is at once apparent that this result still holds good if the clock
> > moves
> > from A to B in any polygonal line, and also when the points A and B
> > coincide.
>
> > If we assume that the result proved for a polygonal line is also valid for
> > a
> > continuously curved line, we arrive at this result: If one of two
> > synchronous clocks at A is moved in a closed curve with constant velocity
> > until it returns to A, the journey lasting t seconds, then by the clock
> > which has remained at rest the travelled clock on its arrival at A will be
> > 1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
> > equator must go more slowly, by a very small amount, than a precisely
> > similar clock situated at one of the poles under otherwise identical
> > conditions."
>
> > No, A continuous curve is not inertial by any stretch of the imagination.
>
> > No, "Inertial" isn't relevant, and Einstein did not mean inertial.
> > No, You are handwaving.
>
> > ===================================================
>
> > That is, given any curve or piecewise line in space-time, all inertial
> > frames
> > will agree on whether that line represents acceleration or not.
>
> > Acceleration = the line is not straight in space-time. Simple as
> > that.
> > =============================================
> > No, Einstein did not say "space-time" either.
> > No, The "space-time curve" of the station is reflected in the frame of the
> > train.
> > No, In any event, a "spacetime diagram" is a distance/time graph with the
> > axes reversed to promote bullshit. No, Simple as that. No, You are
> > handwaving.
>
> > > > ===================================================
> > > > You can demonstrate the so-called "paradox" within SR by having the
> > > > clock traveling at v pass close to another clock traveling back at -
> > > > v. When they are close together they can synchronize. But when the
> > > > clock traveling at -v gets back to the clock at rest, it will now be
> > > > "younger" (less time ticked off) demonstrating that one path through
> > > > space-time gets to the future faster than the other.
> > > > ====================================================
> > > > That's what I said, B meets A before A meets B. It's a whole lot
> > > > harder to do than mere instant acceleration in zero time.
>
> > > > >http://www.merriam-webster.com/dictionary/paradox
>
> > > > > 2 a : a statement that is seemingly contradictory or opposed to
> > > > > common
> > > > > sense
> > > > > and yet is perhaps true
>
> > > > > b : a self-contradictory statement that at first seems true
>
> > > > > c : an argument that apparently derives self-contradictory
> > > > > conclusions
> > > > > by
> > > > > valid deduction from acceptable premises
>
> > > > > No need for any word salad about 'synchronized' or 'spacetime' or
> > > > > 'acceleration', the paradox is: B meets A before A meets B,
> > > > > contradictory
> > > > > to
> > > > > the acceptable premise that A meets B when B meets A.
>
> > > > > ================================================
>
> The inertial frames
> ===================================================
>
> No, it went right over the top your head, didn't it?
> No, A team of scientists working under the direction of researchers from the
> University of Sussex have recently discovered that Einstein did not say
> "inertial". No, Here is a copy of their experimental results.
>
>  http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG
>
>  "If at the points A and B of K there are stationary clocks which, viewed in
>  the stationary system, are synchronous; and if the clock at A is moved with
>  the velocity v along the line AB to B, then on its arrival at B the two
>  clocks no longer synchronize, but the clock moved from A to B lags behind
>  the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
>  fourth and higher order), t being the time occupied in the journey from A
> to
>  B.
>  It is at once apparent that this result still holds good if the clock moves
>  from A to B in any polygonal line, and also when the points A and B
>  coincide.
>
>  If we assume that the result proved for a polygonal line is also valid for
> a
>  continuously curved line, we arrive at this result: If one of two
>  synchronous clocks at A is moved in a closed curve with constant velocity
>  until it returns to A, the journey lasting t seconds, then by the clock
>  which has remained at rest the travelled clock on its arrival at A will be
>  1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
>  equator must go more slowly, by a very small amount, than a precisely
>  similar clock situated at one of the poles under otherwise identical
>  conditions."
>
>  No, A continuous curve is not inertial by any stretch of the imagination.
>  No, "Inertial" isn't relevant, and Einstein did not mean inertial.
>  No, You are handwaving.

Just read the wiki on the twin paradox. A lot of your objections are
addressed in the wiki. If you can't understand it then you
need to backfill on basic stuff like the PoR for simultenaity.


From: Tom Adams on
On Apr 8, 8:23 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
> "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> news:7a85b85e-8e57-4e27-9407-a69b05d1b03b(a)r36g2000yqm.googlegroups.com...
> On Apr 8, 4:04 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> >news:a779de06-faa9-4cd0-85df-8ee04f9aedf7(a)r18g2000yqd.googlegroups.com....
> > On Apr 8, 12:06 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > >news:4512a6c4-1d93-40b6-bc7e-84b200f3c1fb(a)u31g2000yqb.googlegroups.com....
> > > On Apr 7, 10:05 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > > >news:3cfbbdd8-1c7e-4113-9ea9-d9ee6a4cf187(a)g30g2000yqc.googlegroups.com...
> > > > On Apr 7, 3:21 am, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > > > >news:827aa470-d686-4b02-a943-ada1caebe193(a)g30g2000yqc.googlegroups..com...
> > > > > On Mar 11, 11:35 am, GSS <gurcharn_san...(a)yahoo.com> wrote:
>
> > > > > > As per Newtonian notion of absolute space and time, clocks can be
> > > > > > synchronized in absolute terms such that identical precision
> > > > > > atomic
> > > > > > clocks located anywhere within the solar system and in any state
> > > > > > of
> > > > > > motion, will read the same time t1 when a standard master clock
> > > > > > reads
> > > > > > t1. This notion of absolute clock synchronization implies the
> > > > > > notion
> > > > > > of absolute simultaneity.
>
> > > > > > However, as per SR, spatial distance and time measurements have
> > > > > > been
> > > > > > rendered 'relative' and cannot be the same value for different
> > > > > > observers in different states of motion. As per SR the notion of
> > > > > > global 'absolute simultaneity' is fundamentally invalid for
> > > > > > different
> > > > > > observers in different states of motion. Therefore, the notion of
> > > > > > global 'absolute clock synchronization' (in contrast to e-
> > > > > > synchronization) is no longer valid in SR.
>
> > > > > > Since the term 'absolute clock synchronization' is often used in
> > > > > > discussions, I would like to request some Relativity experts to
> > > > > > kindly
> > > > > > clarify the precise definition of absolute clock synchronization
> > > > > > in
> > > > > > SR. Kindly illustrate the procedure, through some 'thought
> > > > > > experiment'
> > > > > > or 'gedanken', to achieve absolute clock synchronization for all
> > > > > > observers in different states of motion within our solar system..
>
> > > > > > Further, I also need some expert opinion on the following
> > > > > > situation,
> > > > > > involving clock synchronization.
>
> > > > > > Two identical precision atomic clocks are positioned side by side
> > > > > > at
> > > > > > point A on the surface of earth and mutually synchronized to
> > > > > > ensure
> > > > > > that
> > > > > > (a) their clock rates or frequencies are exactly matched or
> > > > > > synchronized
> > > > > > (b) their instantaneous timing offsets are eliminated to ensure
> > > > > > that
> > > > > > a
> > > > > > common trigger pulse yields the same timing reading t1 from both
> > > > > > clocks.
>
> > > > > > Assuming the inherent drift of the two atomic clocks is identical
> > > > > > and
> > > > > > well within 100 ps per day, it can be demonstrated that while the
> > > > > > two
> > > > > > clocks remain side by side, their synchronization, after a period
> > > > > > of
> > > > > > one day, is retained at well within one ns accuracy.
>
> > > > > > Let us shift one of the synchronized atomic clocks to a position B
> > > > > > such that distance AB is about 30 km.
>
> > > > > Stop right there. You are outside of the scope of SR. All
> > > > > acceleration
> > > > > is outside the scope. SR cannot address your question.
>
> > > > > Strictly speaking, the twin paradox is not part of SR since in
> > > > > involves acceleration. The space-time paths that the twins take do
> > > > > involve different elapsed times in a reference frame, but taking one
> > > > > of the paths involves acceleration.
> > > > > ===========================================
> > > > > Stop right there.
> > > > > Strictly speaking, the twin paradox is very much part of SR since it
> > > > > does
> > > > > NOT involve acceleration.
> > > > > The outbound journey is at velocity v and the inbound is at
> > > > > velocity -v,
> > > > > the
> > > > > path is a two-sided polygon.
>
> > > > Yes, but the twin has to go from v to -v.
> > > > ======================================
> > > > Not relevant, v is squared in tau = t * sqrt(1-v^2/c^2),
> > > > so (-v)^2 = v^2. Cars go around oval race tracks without
> > > > changing speed all the time, reversing their velocity.
> > > > ======================================
>
> > > > > "If we assume that the result proved for a polygonal line is also
> > > > > valid
> > > > > for
> > > > > a continuously curved line, we arrive at this result: If one of two
> > > > > synchronous clocks at A is moved in a closed curve with constant
> > > > > velocity
> > > > > until it returns to A, the journey lasting t seconds, then by the
> > > > > clock
> > > > > which has remained at rest the travelled clock on its arrival at A
> > > > > will
> > > > > be
> > > > > 1/2 t v^2/c^2 second slow." -- Einstein, 1905, "On the
> > > > > Electrodynamics
> > > > > of
> > > > > Moving Bodies".
>
> > > > Yeah, it's in the paper. But there is acceleration.
> > > > =======================================
> > > > If there were then its duration and distance would be pertinent.
> > > > Unless you can state their relevance then acceleration is just so
> > > > much hand-waving, like Gordon Brown dog-paddling the economy
> > > > as he sinks, flapping his paws up and down and saying "No",
> > > > and "Should" without answering any questions.
>
> > > > Einstein claims his result is proved for a polygonal line and a
> > > > continuous curved line, there is no change in SPEED (not velocity)
> > > > as the ship swings around the back of the star and returns to Earth..
> > > > He contradicts his own xi = x'/sqrt(1-v^2/c^2), eta = y, zeta = z,
> > > > but that's normal for his nonsense.
> > > > =======================================
>
> > > > > Thence we conclude that clock B (having travelled and being younger
> > > > > than
> > > > > clock A) meets clock A before clock A meets clock B. The clock are
> > > > > twin
> > > > > clocks, and in real physics A meets B when B meets A. That's the
> > > > > paradox.
>
> > > > No, there is no real paradox.
> > > > ====================================================
> > > > Oh yes there is,
> > > >http://www.merriam-webster.com/dictionary/paradox
>
> > > > 2 a : a statement that is seemingly contradictory or opposed to common
> > > > sense
> > > > and yet is perhaps true
> > > > b : a self-contradictory statement that at first seems true
> > > > c : an argument that apparently derives self-contradictory conclusions
> > > > by
> > > > valid deduction from acceptable premises
>
> > > > As the ship goes around turns 2 and 3 it travels at v = 0 when u =
> > > > <unchanged speed>,
> > > > so
> > > > eta = y'/sqrt(1-u^2/c^2)
> > > > and NOT
> > > > eta = y
> > > > Einstein wasn't bright enough to know the difference between speed
> > > > and velocity, he was too busy reading sci-fi in school.
> > > > ====================================================
>
> > > > One twin accelerated and the other did not. You can't just reverse A
> > > > and B.
> > > > ===================================================
>
> > > > Einstein can! He can do as he likes, He's a god. He can defy the laws
> > > > of
> > > > physics. He's holy, a genius.
>
> > > The important thing is that *you* can't reverse A and B because they
> > > took
> > > different paths in space-time. No inertial frame will consider these
> > > two paths to be equivalent.
>
> > > Einstein did not reverse them either.
> > > ==================================================
>
> > > The important thing is
> > > "Take, for example, the reciprocal electrodynamic action of a magnet and
> > > a
> > > conductor. The observable phenomenon here depends only on the relative
> > > motion of the conductor and the magnet...
> > > Examples of this sort, yada, yada, yada... will hereafter be called the
> > > ``Principle of Relativity''
> > > Ref:
> > > ON THE ELECTRODYNAMICS
> > > OF MOVING BODIES
> > > by A. Einstein
> > > June 30, 1905
> > > Einstein does reverse A and B (when it suits him).
>
> > > The important thing is Humpty Roberts has just told you SR can handle
> > > acceleration
> > > just fine and you've agreed with him, and here you claim acceleration is
> > > required. That's a paradox, and the PoR requires that A and B can be
> > > reversed.
>
> > No, the PoR makes speed relative. It does not make acceleration
> > relative.
> > ====================================================
> > Yes, the PoR makes speed relative. No, it does make acceleration
> > relative since acceleration is rate of change of velocity and velocity is
> > relative. If the Earth goes away from the ship and then returns to
> > the ship, which is exactly what those aboard the ship see, then the
> > Earth changed its velocity and therefore accelerated.
> > The PoR requires the station to come to the train.
>
> > ====================================================
> > I agreed that SR calculations might be able to handle acceleration. I
> > meant that it might be able to handle some calculations or inferences
> > about acceleration.
>
> > ====================================================
> > No, "Might be" is handwaving. Humpty Roberts is very good at it but
> > hopeless
> > at mathematics. No, I do not agree that SR calculations might be able to
> > handle
> > acceleration, so where does that leave us? No, We should agree to differ?
> > No, Not at all, you have the burden of proof, its your claim. No, This is
> > physics and mathematics, not religion where faith applies.
>
> > ====================================================
> > I was not agreeing that the PoR applies to acceleration. It clearly
> > does not
> > apply to acceleration.
> > ====================================================
>
> > No, CLEARLY it DOES, as I've proven above. No, Acceleration is rate of
> > change of velocity and velocity is relative. No, The station comes to the
> > train.
> > No, Do not confuse force with rate of change of velocity, in case you are
> > thinking of doing so. No, In the frame of reference of the train, the
> > station
> > accelerates.
> > ====================================================
> > All inertial frames will agree about which
> > clocks have accelerated and which clocks have not accelerated, the PoR
> > does not apply.
> > ====================================================
> > No, A team of scientists working under the direction of researchers from
> > the
> > University of Sussex have recently discovered that Einstein did not say
> > "inertial". No, Here is a copy of their experimental results.
>
> >http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG
>
> > "If at the points A and B of K there are stationary clocks which, viewed
> > in
> > the stationary system, are synchronous; and if the clock at A is moved
> > with
> > the velocity v along the line AB to B, then on its arrival at B the two
> > clocks no longer synchronize, but the clock moved from A to B lags behind
> > the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
> > fourth and higher order), t being the time occupied in the journey from A
> > to
> > B.
> > It is at once apparent that this result still holds good if the clock
> > moves
> > from A to B in any polygonal line, and also when the points A and B
> > coincide.
>
> > If we assume that the result proved for a polygonal line is also valid for
> > a
> > continuously curved line, we arrive at this result: If one of two
> > synchronous clocks at A is moved in a closed curve with constant velocity
> > until it returns to A, the journey lasting t seconds, then by the clock
> > which has remained at rest the travelled clock on its arrival at A will be
> > 1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
> > equator must go more slowly, by a very small amount, than a precisely
> > similar clock situated at one of the poles under otherwise identical
> > conditions."
>
> > No, A continuous curve is not inertial by any stretch of the imagination.
>
> > No, "Inertial" isn't relevant, and Einstein did not mean inertial.
> > No, You are handwaving.
>
> > ===================================================
>
> > That is, given any curve or piecewise line in space-time, all inertial
> > frames
> > will agree on whether that line represents acceleration or not.
>
> > Acceleration = the line is not straight in space-time. Simple as
> > that.
> > =============================================
> > No, Einstein did not say "space-time" either.
> > No, The "space-time curve" of the station is reflected in the frame of the
> > train.
> > No, In any event, a "spacetime diagram" is a distance/time graph with the
> > axes reversed to promote bullshit. No, Simple as that. No, You are
> > handwaving.
>
> > > > ===================================================
> > > > You can demonstrate the so-called "paradox" within SR by having the
> > > > clock traveling at v pass close to another clock traveling back at -
> > > > v. When they are close together they can synchronize. But when the
> > > > clock traveling at -v gets back to the clock at rest, it will now be
> > > > "younger" (less time ticked off) demonstrating that one path through
> > > > space-time gets to the future faster than the other.
> > > > ====================================================
> > > > That's what I said, B meets A before A meets B. It's a whole lot
> > > > harder to do than mere instant acceleration in zero time.
>
> > > > >http://www.merriam-webster.com/dictionary/paradox
>
> > > > > 2 a : a statement that is seemingly contradictory or opposed to
> > > > > common
> > > > > sense
> > > > > and yet is perhaps true
>
> > > > > b : a self-contradictory statement that at first seems true
>
> > > > > c : an argument that apparently derives self-contradictory
> > > > > conclusions
> > > > > by
> > > > > valid deduction from acceptable premises
>
> > > > > No need for any word salad about 'synchronized' or 'spacetime' or
> > > > > 'acceleration', the paradox is: B meets A before A meets B,
> > > > > contradictory
> > > > > to
> > > > > the acceptable premise that A meets B when B meets A.
>
> > > > > ================================================
>
> The inertial frames
> ===================================================
>
> No, it went right over the top your head, didn't it?
> No, A team of scientists working under the direction of researchers from the
> University of Sussex have recently discovered that Einstein did not say
> "inertial". No, Here is a copy of their experimental results.
>
>  http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG
>
>  "If at the points A and B of K there are stationary clocks which, viewed in
>  the stationary system, are synchronous; and if the clock at A is moved with
>  the velocity v along the line AB to B, then on its arrival at B the two
>  clocks no longer synchronize, but the clock moved from A to B lags behind
>  the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
>  fourth and higher order), t being the time occupied in the journey from A
> to
>  B.
>  It is at once apparent that this result still holds good if the clock moves
>  from A to B in any polygonal line, and also when the points A and B
>  coincide.
>
>  If we assume that the result proved for a polygonal line is also valid for
> a
>  continuously curved line, we arrive at this result: If one of two
>  synchronous clocks at A is moved in a closed curve with constant velocity
>  until it returns to A, the journey lasting t seconds, then by the clock
>  which has remained at rest the travelled clock on its arrival at A will be
>  1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
>  equator must go more slowly, by a very small amount, than a precisely
>  similar clock situated at one of the poles under otherwise identical
>  conditions."
>
>  No, A continuous curve is not inertial by any stretch of the imagination.
>  No, "Inertial" isn't relevant, and Einstein did not mean inertial.
>  No, You are handwaving.

You seem to think that the time that passes between two events in
independent of the path of travel between the two events. Turns out
that is not true.
From: Androcles on

"Tom Adams" <tadamsmar(a)yahoo.com> wrote in message
news:abfe6383-fc76-4a18-a06b-fc96d163a777(a)5g2000yqj.googlegroups.com...
On Apr 8, 8:23 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
> "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> news:7a85b85e-8e57-4e27-9407-a69b05d1b03b(a)r36g2000yqm.googlegroups.com...
> On Apr 8, 4:04 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> >news:a779de06-faa9-4cd0-85df-8ee04f9aedf7(a)r18g2000yqd.googlegroups.com...
> > On Apr 8, 12:06 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > >news:4512a6c4-1d93-40b6-bc7e-84b200f3c1fb(a)u31g2000yqb.googlegroups.com...
> > > On Apr 7, 10:05 pm, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote:
>
> > > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > > >news:3cfbbdd8-1c7e-4113-9ea9-d9ee6a4cf187(a)g30g2000yqc.googlegroups.com...
> > > > On Apr 7, 3:21 am, "Androcles" <Headmas...(a)Hogwarts.physics_x>
> > > > wrote:
>
> > > > > "Tom Adams" <tadams...(a)yahoo.com> wrote in message
>
> > > > >news:827aa470-d686-4b02-a943-ada1caebe193(a)g30g2000yqc.googlegroups.com...
> > > > > On Mar 11, 11:35 am, GSS <gurcharn_san...(a)yahoo.com> wrote:
>
> > > > > > As per Newtonian notion of absolute space and time, clocks can
> > > > > > be
> > > > > > synchronized in absolute terms such that identical precision
> > > > > > atomic
> > > > > > clocks located anywhere within the solar system and in any state
> > > > > > of
> > > > > > motion, will read the same time t1 when a standard master clock
> > > > > > reads
> > > > > > t1. This notion of absolute clock synchronization implies the
> > > > > > notion
> > > > > > of absolute simultaneity.
>
> > > > > > However, as per SR, spatial distance and time measurements have
> > > > > > been
> > > > > > rendered 'relative' and cannot be the same value for different
> > > > > > observers in different states of motion. As per SR the notion of
> > > > > > global 'absolute simultaneity' is fundamentally invalid for
> > > > > > different
> > > > > > observers in different states of motion. Therefore, the notion
> > > > > > of
> > > > > > global 'absolute clock synchronization' (in contrast to e-
> > > > > > synchronization) is no longer valid in SR.
>
> > > > > > Since the term 'absolute clock synchronization' is often used in
> > > > > > discussions, I would like to request some Relativity experts to
> > > > > > kindly
> > > > > > clarify the precise definition of absolute clock synchronization
> > > > > > in
> > > > > > SR. Kindly illustrate the procedure, through some 'thought
> > > > > > experiment'
> > > > > > or 'gedanken', to achieve absolute clock synchronization for all
> > > > > > observers in different states of motion within our solar system.
>
> > > > > > Further, I also need some expert opinion on the following
> > > > > > situation,
> > > > > > involving clock synchronization.
>
> > > > > > Two identical precision atomic clocks are positioned side by
> > > > > > side
> > > > > > at
> > > > > > point A on the surface of earth and mutually synchronized to
> > > > > > ensure
> > > > > > that
> > > > > > (a) their clock rates or frequencies are exactly matched or
> > > > > > synchronized
> > > > > > (b) their instantaneous timing offsets are eliminated to ensure
> > > > > > that
> > > > > > a
> > > > > > common trigger pulse yields the same timing reading t1 from both
> > > > > > clocks.
>
> > > > > > Assuming the inherent drift of the two atomic clocks is
> > > > > > identical
> > > > > > and
> > > > > > well within 100 ps per day, it can be demonstrated that while
> > > > > > the
> > > > > > two
> > > > > > clocks remain side by side, their synchronization, after a
> > > > > > period
> > > > > > of
> > > > > > one day, is retained at well within one ns accuracy.
>
> > > > > > Let us shift one of the synchronized atomic clocks to a position
> > > > > > B
> > > > > > such that distance AB is about 30 km.
>
> > > > > Stop right there. You are outside of the scope of SR. All
> > > > > acceleration
> > > > > is outside the scope. SR cannot address your question.
>
> > > > > Strictly speaking, the twin paradox is not part of SR since in
> > > > > involves acceleration. The space-time paths that the twins take do
> > > > > involve different elapsed times in a reference frame, but taking
> > > > > one
> > > > > of the paths involves acceleration.
> > > > > ===========================================
> > > > > Stop right there.
> > > > > Strictly speaking, the twin paradox is very much part of SR since
> > > > > it
> > > > > does
> > > > > NOT involve acceleration.
> > > > > The outbound journey is at velocity v and the inbound is at
> > > > > velocity -v,
> > > > > the
> > > > > path is a two-sided polygon.
>
> > > > Yes, but the twin has to go from v to -v.
> > > > ======================================
> > > > Not relevant, v is squared in tau = t * sqrt(1-v^2/c^2),
> > > > so (-v)^2 = v^2. Cars go around oval race tracks without
> > > > changing speed all the time, reversing their velocity.
> > > > ======================================
>
> > > > > "If we assume that the result proved for a polygonal line is also
> > > > > valid
> > > > > for
> > > > > a continuously curved line, we arrive at this result: If one of
> > > > > two
> > > > > synchronous clocks at A is moved in a closed curve with constant
> > > > > velocity
> > > > > until it returns to A, the journey lasting t seconds, then by the
> > > > > clock
> > > > > which has remained at rest the travelled clock on its arrival at A
> > > > > will
> > > > > be
> > > > > 1/2 t v^2/c^2 second slow." -- Einstein, 1905, "On the
> > > > > Electrodynamics
> > > > > of
> > > > > Moving Bodies".
>
> > > > Yeah, it's in the paper. But there is acceleration.
> > > > =======================================
> > > > If there were then its duration and distance would be pertinent.
> > > > Unless you can state their relevance then acceleration is just so
> > > > much hand-waving, like Gordon Brown dog-paddling the economy
> > > > as he sinks, flapping his paws up and down and saying "No",
> > > > and "Should" without answering any questions.
>
> > > > Einstein claims his result is proved for a polygonal line and a
> > > > continuous curved line, there is no change in SPEED (not velocity)
> > > > as the ship swings around the back of the star and returns to Earth.
> > > > He contradicts his own xi = x'/sqrt(1-v^2/c^2), eta = y, zeta = z,
> > > > but that's normal for his nonsense.
> > > > =======================================
>
> > > > > Thence we conclude that clock B (having travelled and being
> > > > > younger
> > > > > than
> > > > > clock A) meets clock A before clock A meets clock B. The clock are
> > > > > twin
> > > > > clocks, and in real physics A meets B when B meets A. That's the
> > > > > paradox.
>
> > > > No, there is no real paradox.
> > > > ====================================================
> > > > Oh yes there is,
> > > >http://www.merriam-webster.com/dictionary/paradox
>
> > > > 2 a : a statement that is seemingly contradictory or opposed to
> > > > common
> > > > sense
> > > > and yet is perhaps true
> > > > b : a self-contradictory statement that at first seems true
> > > > c : an argument that apparently derives self-contradictory
> > > > conclusions
> > > > by
> > > > valid deduction from acceptable premises
>
> > > > As the ship goes around turns 2 and 3 it travels at v = 0 when u =
> > > > <unchanged speed>,
> > > > so
> > > > eta = y'/sqrt(1-u^2/c^2)
> > > > and NOT
> > > > eta = y
> > > > Einstein wasn't bright enough to know the difference between speed
> > > > and velocity, he was too busy reading sci-fi in school.
> > > > ====================================================
>
> > > > One twin accelerated and the other did not. You can't just reverse A
> > > > and B.
> > > > ===================================================
>
> > > > Einstein can! He can do as he likes, He's a god. He can defy the
> > > > laws
> > > > of
> > > > physics. He's holy, a genius.
>
> > > The important thing is that *you* can't reverse A and B because they
> > > took
> > > different paths in space-time. No inertial frame will consider these
> > > two paths to be equivalent.
>
> > > Einstein did not reverse them either.
> > > ==================================================
>
> > > The important thing is
> > > "Take, for example, the reciprocal electrodynamic action of a magnet
> > > and
> > > a
> > > conductor. The observable phenomenon here depends only on the relative
> > > motion of the conductor and the magnet...
> > > Examples of this sort, yada, yada, yada... will hereafter be called
> > > the
> > > ``Principle of Relativity''
> > > Ref:
> > > ON THE ELECTRODYNAMICS
> > > OF MOVING BODIES
> > > by A. Einstein
> > > June 30, 1905
> > > Einstein does reverse A and B (when it suits him).
>
> > > The important thing is Humpty Roberts has just told you SR can handle
> > > acceleration
> > > just fine and you've agreed with him, and here you claim acceleration
> > > is
> > > required. That's a paradox, and the PoR requires that A and B can be
> > > reversed.
>
> > No, the PoR makes speed relative. It does not make acceleration
> > relative.
> > ====================================================
> > Yes, the PoR makes speed relative. No, it does make acceleration
> > relative since acceleration is rate of change of velocity and velocity
> > is
> > relative. If the Earth goes away from the ship and then returns to
> > the ship, which is exactly what those aboard the ship see, then the
> > Earth changed its velocity and therefore accelerated.
> > The PoR requires the station to come to the train.
>
> > ====================================================
> > I agreed that SR calculations might be able to handle acceleration. I
> > meant that it might be able to handle some calculations or inferences
> > about acceleration.
>
> > ====================================================
> > No, "Might be" is handwaving. Humpty Roberts is very good at it but
> > hopeless
> > at mathematics. No, I do not agree that SR calculations might be able to
> > handle
> > acceleration, so where does that leave us? No, We should agree to
> > differ?
> > No, Not at all, you have the burden of proof, its your claim. No, This
> > is
> > physics and mathematics, not religion where faith applies.
>
> > ====================================================
> > I was not agreeing that the PoR applies to acceleration. It clearly
> > does not
> > apply to acceleration.
> > ====================================================
>
> > No, CLEARLY it DOES, as I've proven above. No, Acceleration is rate of
> > change of velocity and velocity is relative. No, The station comes to
> > the
> > train.
> > No, Do not confuse force with rate of change of velocity, in case you
> > are
> > thinking of doing so. No, In the frame of reference of the train, the
> > station
> > accelerates.
> > ====================================================
> > All inertial frames will agree about which
> > clocks have accelerated and which clocks have not accelerated, the PoR
> > does not apply.
> > ====================================================
> > No, A team of scientists working under the direction of researchers from
> > the
> > University of Sussex have recently discovered that Einstein did not say
> > "inertial". No, Here is a copy of their experimental results.
>
> >http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG
>
> > "If at the points A and B of K there are stationary clocks which, viewed
> > in
> > the stationary system, are synchronous; and if the clock at A is moved
> > with
> > the velocity v along the line AB to B, then on its arrival at B the two
> > clocks no longer synchronize, but the clock moved from A to B lags
> > behind
> > the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
> > fourth and higher order), t being the time occupied in the journey from
> > A
> > to
> > B.
> > It is at once apparent that this result still holds good if the clock
> > moves
> > from A to B in any polygonal line, and also when the points A and B
> > coincide.
>
> > If we assume that the result proved for a polygonal line is also valid
> > for
> > a
> > continuously curved line, we arrive at this result: If one of two
> > synchronous clocks at A is moved in a closed curve with constant
> > velocity
> > until it returns to A, the journey lasting t seconds, then by the clock
> > which has remained at rest the travelled clock on its arrival at A will
> > be
> > 1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
> > equator must go more slowly, by a very small amount, than a precisely
> > similar clock situated at one of the poles under otherwise identical
> > conditions."
>
> > No, A continuous curve is not inertial by any stretch of the
> > imagination.
>
> > No, "Inertial" isn't relevant, and Einstein did not mean inertial.
> > No, You are handwaving.
>
> > ===================================================
>
> > That is, given any curve or piecewise line in space-time, all inertial
> > frames
> > will agree on whether that line represents acceleration or not.
>
> > Acceleration = the line is not straight in space-time. Simple as
> > that.
> > =============================================
> > No, Einstein did not say "space-time" either.
> > No, The "space-time curve" of the station is reflected in the frame of
> > the
> > train.
> > No, In any event, a "spacetime diagram" is a distance/time graph with
> > the
> > axes reversed to promote bullshit. No, Simple as that. No, You are
> > handwaving.
>
> > > > ===================================================
> > > > You can demonstrate the so-called "paradox" within SR by having the
> > > > clock traveling at v pass close to another clock traveling back at -
> > > > v. When they are close together they can synchronize. But when the
> > > > clock traveling at -v gets back to the clock at rest, it will now be
> > > > "younger" (less time ticked off) demonstrating that one path through
> > > > space-time gets to the future faster than the other.
> > > > ====================================================
> > > > That's what I said, B meets A before A meets B. It's a whole lot
> > > > harder to do than mere instant acceleration in zero time.
>
> > > > >http://www.merriam-webster.com/dictionary/paradox
>
> > > > > 2 a : a statement that is seemingly contradictory or opposed to
> > > > > common
> > > > > sense
> > > > > and yet is perhaps true
>
> > > > > b : a self-contradictory statement that at first seems true
>
> > > > > c : an argument that apparently derives self-contradictory
> > > > > conclusions
> > > > > by
> > > > > valid deduction from acceptable premises
>
> > > > > No need for any word salad about 'synchronized' or 'spacetime' or
> > > > > 'acceleration', the paradox is: B meets A before A meets B,
> > > > > contradictory
> > > > > to
> > > > > the acceptable premise that A meets B when B meets A.
>
> > > > > ================================================
>
> The inertial frames
> ===================================================
>
> No, it went right over the top your head, didn't it?
> No, A team of scientists working under the direction of researchers from
> the
> University of Sussex have recently discovered that Einstein did not say
> "inertial". No, Here is a copy of their experimental results.
>
> http://www.androcles01.pwp.blueyonder.co.uk/inertial.JPG
>
> "If at the points A and B of K there are stationary clocks which, viewed
> in
> the stationary system, are synchronous; and if the clock at A is moved
> with
> the velocity v along the line AB to B, then on its arrival at B the two
> clocks no longer synchronize, but the clock moved from A to B lags behind
> the other which has remained at B by 1/2 tv^2/c^2 (up to magnitudes of
> fourth and higher order), t being the time occupied in the journey from A
> to
> B.
> It is at once apparent that this result still holds good if the clock
> moves
> from A to B in any polygonal line, and also when the points A and B
> coincide.
>
> If we assume that the result proved for a polygonal line is also valid for
> a
> continuously curved line, we arrive at this result: If one of two
> synchronous clocks at A is moved in a closed curve with constant velocity
> until it returns to A, the journey lasting t seconds, then by the clock
> which has remained at rest the travelled clock on its arrival at A will be
> 1/2 tv^2/c^2 second slow. Thence we conclude that a balance-clock at the
> equator must go more slowly, by a very small amount, than a precisely
> similar clock situated at one of the poles under otherwise identical
> conditions."
>
> No, A continuous curve is not inertial by any stretch of the imagination.
> No, "Inertial" isn't relevant, and Einstein did not mean inertial.
> No, You are handwaving.

Just read the wiki on the twin paradox.
==============================================
The wacky on the twin paradox was written by the same bigots that
that used to spew nonsense on sci.physics.relativity. Do not appeal
to your idea of authority on the matter, I have quoted the lunatic that
started the whole shebang, Einstein himself.
This is about mathematics and logic, not "just read the wacky".
===============================================


A lot of your objections are
addressed in the wiki. If you can't understand it then you
need to backfill on basic stuff like the PoR for simultenaity.
===============================================
I do not need the wacky to think for me, I have the original paper
at http://www.fourmilab.ch/etexts/einstein/specrel/www/

If you can't understand it then you need to backfill on basic stuff like
kiddy algebra, kiddy calculus and kiddy logic, quit your useless
handwaving beliefs and debate in a logical manner.

Inertial frames are Newtonian Mechanics. The bozo Einstein doesn't agree
with Newton, and you don't get to mix Newton's precise laws with the
crank's imprecise handwaving "laws of physics" and then say Newton
was wrong! The PoR in Einstein's paper is an EXAMPLE.
His chosen EXAMPLE is
"Take, for **example**, the reciprocal electrodynamic action of a magnet and
a conductor"
"The observable phenomenon here depends only on the relative motion of the
conductor and the magnet"
**Examples** like this ... yada yada yada ...
will hereafter be called the "Principle of Relativity")

If you can't understand it then you need to backfill on basic stuff like
reading comprehension.

'Some men, reasoning preposterously, first establish some conclusion in
their minds which, either because of its being their own or because of their
having received it from some person who has their entire confidence,
impresses them so deeply that one finds it impossible ever to get it out of
their heads.'- Galileo Galilei
'Faced with changing one's mind, or proving that there is no need to do so,
most people get busy on the proof.'- John Kenneth Galbraith
'There is nothing so easy but that it becomes difficult when you do it with
reluctance.'- Marcus Tullius Cicero

So STOP right there.
Strictly speaking, the twin paradox is very much part of SR since it does
NOT involve acceleration.
The outbound journey is at velocity v and the inbound is at velocity -v, the
path is a two-sided polygon.



From: Sue... on
On Apr 8, 9:51 pm, Tom Adams <tadams...(a)yahoo.com> wrote:

>
> >  No, A continuous curve is not inertial by any stretch of the imagination.
> >  No, "Inertial" isn't relevant, and Einstein did not mean inertial.
> >  No, You are handwaving.
>
> Just read the wiki on the twin paradox. A lot of your objections are
> addressed in the wiki. If you can't understand it then you
> need to backfill on basic stuff like the PoR for simultaneity.


The Wikipedia page does not seem to address my question.
I think it is simple Newtonian mechanics but I have
gotten a little rusty.

Apologies if I overlooked your response to the same
question yesterday.

On Apr 8, 2:18 pm, Tom Adams <tadams...(a)yahoo.com> wrote:
> No, the PoR makes speed relative. It does not make acceleration
> relative.

> I agreed that SR calculations might be able to handle acceleration. I
> meant that it might be able to handle some calculations or inferences
> about acceleration.

> I was not agreeing that the PoR applies to acceleration. It clearly
> does not
> apply to acceleration.

=====================

> All inertial frames will agree about which
> clocks have accelerated and which clocks have not accelerated, the PoR
> does not apply.

Which inertial frame could an aeroplane coast in
such that a hijacker might benefit from a
weakened lawman's bullet?

K.E. = 1/2 mv^2

Sue...