Why are the 'Fixed Stars' so FIXED?
"cliff wright" wrote in message ...
Paul Schlyter wrote:
In article ,
Henri Wilson HW@....... wrote:
On Fri, 09 Feb 2007 20:42:17 GMT, (Paul Schlyter) wrote:
There isn't one believable experiment that supports SR..
The ones we read about are all part of the religious promotion.
If so, why don't you just redo some of these experiments, to get
results which contradict relativity? Basically, you're here claiming
these experimental results are all faked in a process of religious
propaganda - redoing the experiments would quickly reveal such a
situation. Any erroneous religious promption can be refuted by
observations and experimentation.
many of the so called 'supporting experiments' were performed in the
sixties. Why do you think nobody repeats them?
For the same reason that nobody today repeats experiment to prove that
the Earth is not flat.... well, these experiments are sometimes
performed for educational purposes in elementary school, but never in
science. Science makes progress you know - therefore it doesn't
endlessly repeat the old experiments over and over again.
How many of these orbits have been recorded which you know about? And
how many would you expect to have been recorded?
I wouldn't like to put a figure on it.
Why not? Don't you know how many of these orbit you know about? Why so
evasive?
No response .....
I would expect that many binary pairs would been recorded as having
'changed places' over twenty years or so.
Indeed they have .... however the word "many" is a quite fuzzy term and
could mean anything from more than, say, 3, to millions.....
....but don't worry about it. I doubt if anyone has seriously looked
over long time spans.
Binary stars have been measured for centuries .... is that time long
enough for you? A number of them have been observed through several
full revolutions in their orbits. Sirius (the brightest star in our
skies) is a double star which have been observed through more than
three full orbital revolutions.
Yes I'm aware of that. It also has another companion with a very long term
period.
If you're aware of that many has seriously looked at binary stars over
long periods, you ought to realize you have nothing to worry about here.
Why don't you aim at trying to finding out how Nature works, instead
of trying to prove some particular theory wrong?
Not only have I been trying...I have succeeded.
You are indeed overconfident --- however if you also want to convince
others and not just devote yourself to intellectual masturbation, you
need to present evidence rather than just big words through your big
mouth.
What do you think I've been doing. (on sci.physics.relativity)
Babbling I suppose - to satisfy nobody but yourself.
I have bothered to simulate many brightness curves using just the BaTh
principles
Did you also simulate then using relativity?
What would be the point?
Didn't you want to prove Einstein wrong?
Suppose you have two theories, A and B. You want to refute theory A
because you believe in theory B. So you produce predictions with
theory A _and_ theory B, and compare these predictions with
observations.
If the prediction by theory B but not theory A match the observations,
you have succeeded in refuting theory A.
If the prediction by theory A but not theory B match the observations,
you have refuted theory B and should discard it.
If predictions of both theories A and B match the observations, you
cannot use that particular observation to decide which of theories A
and B are correct.
But you do something different: you compare theory B only with
observations and conclude they match - then you discard theory A
without even bother to look at the predictions provided by that
theory. And it seems like you don't even understand why you should
examine the predictions by theory A before discarding it. There's a
name for that: it's called prejudice.
The point of also examining the theory you want to discard is to
avoid being accused for prejudice....
Was there any difference in your simulated light curves?
You don't seem to have the faintest idea about any of this. Relativity
says all the light leaving the star travels at c wrt Earth.
True.
That means there is no relative movement between light emitted at any
part of the orbit.
False! Remember that c + any velocity equals c in relativity.
The order of change you are refering to is minute compared with the BaTh
effect.
Did you actually compute this? Or did you just use your prejudice?
Yes, in relativity too, an
approaching light source will appear somewhat brighter -- and at low
speeds compared to light speed, the difference between the two
brightnesses will be quite small.
In this case, negligible
Yes -- just as in bath.... there's no way a radial velocity change
of just some tens of km/s could produce a brightness change of the
order of one stellar magnitude.
and have discovered that light moves at c wrt its source and
at c+v wrt planet Earth for most of its journey through space.
Yet you also say:
# There is NO KNOWN way to measure the OW speed of light...particularly from
# moving stars.
Are you really this stupid or just trying to waste my time?
I am not MEASURING OWLS. I am merely demonstrating that light from differently
moving sources DOES NOT move at the same speed....as Einstein claimed.
How can you verify this claim without doing any measurements?
Which means you have been unable to measure the speed of light (since
you claim there's no known way to measure it). So how come you
consider yourself knowing the speed of light? You haven't measured
it, and the only way to know it is to measure it......
I am COMPARING different light speeds , dopey, not measuring them.
How can you compare two speeds without measuring them?
I have shown that Einstein's P2 is completely wrong and the acceptance
of his stupid theory by a bunch of gullible fools been the cause of much
confusion in the ranks of astronomers for 100 years.
big laugh ....again, where's your evidence?
Here are some more matched light curves.
www.users.bigpond.com/hewn/group1.jpg
I asked for _evidence_ !! Not some obscure diagrams without adequate
explanation....
Just about any published curve is easily matched.
The only known way to check this is to try to simulate their brightness curves
using the assumption that their emitted light moves at c+vcos(t) wrt Earth.....
.....and guess what....the simulations work 100%.
If there's a radial velocity change of X km/s, how big brightess change, in
stellar magnitudes, would that produce according to you? Please supply a formula.
My program does all the sums.
I have now placed the latest version on my website.
You are free to use it to match published curves.
http://www.users.bigpond.com/hewn/variables.exe
Source code, please ..... I don't download binaries from untrusted web sites.
I have to revise te instructions because it is rather hard to use.
This seems to be the #1 fallacy of crackpots: they're so much into
their own ideas that they fail to realize they have to explain what
they're doing, in a clear way, to others if they want support for
their ideas. Or perhaps it's a strategy used by them, since
explaining your ideas clearly imposes a risk: it then becomes easier
for others to point out the flaws in your idea to you.
That's because the radial velocity changes are far too small to
produce any significant brightness changes. The radial velocity
change must be a non-negligible fraction of the speed of light to be
able to produce measureable brightness changes.
You haven't any idea.
You are thinking only in terms of E = h.nu where nu is doppler shifted.
That is not related to the effect caused by 'c+v bunching'...which is much
larger.
How much larger? Please give a formula....
The GPS system assumes that relativity is valid, and is able to
produce quite accurate positions of each receivers. GPS is nowadays
used to control e.g. the flight paths of airplanes when landing on
airfields in misty weather conditions when visual landing is
impossible. If the assumption of the validity of relativity by the
GPS system would be erroneous and instead your ballistic theory of
light would be valid, the consequences would be dramatic: airplanes
would miss the runways in the airfields and instead crash in e.g. some
nearby wood. Less dramatic but also quite noticeable would be hikers,
or car drivers, getting lost because their GPS showed them an erroneous
position.
Yes we know all about the so called GR correction of GPS clocks. It has been
discussed at length. I have proved that the clocks actually physically change
when placed in free fall. The effect has nothing whatsoever to do with
relativity.
Then how come the relativistic effects assumed to be valid in GPS does
indeed succeed in producing accurate positions of the GPS receivers?
I just showed you above that it's quite possible. If the assumption
by the GPS system of the validity of relativity was erroneous, then
the GPS system would fail to produce accurate positions of the GPS
receivers.
The GPS system DOES NOT rely on relativity.
If so, why does it employ relativistic corrections?
You have already seen this one: www.users.bigpond.com/hewn/and.jpg
Yep -- an obscure figure of yours which for instance lack labels on the axes
telling what they actually represent. Something varies between -0.5 and 0.5
(approxcimately) -- but what is varying?
Star Magnitude is varying,
Why didn't you label the coordinate axes accordingly?
The black dots and lines are the published ones. The
blue dots are my simulation.
Why didn't you add that text to your figure?
OK, so you have a simulation which produces these figures. The algorithms
are well hidden within your executable files. Why are you hiding your
algorithms? Why not instead publish them? After all, that's what science
is about: publish your stuff, in enouigh detail for others to be able
to judge whether what you're doing is valid or not. Having some executable
file with closed source produce some figure and call that figure "proof" of
your ideas won't work!
Please redraw that figure more clearly
and label the axes appropriately so one understands what the diagram is supposed
to mean.
It's just a conventional light curve, brightness (up) versus time. The star is
RR Lyr.
Another piece of information missing from your figure.
Also, that's not a measurement of light speed. It couldn't be, since you
yourself has claimed:
# There is NO KNOWN way to measure the OW speed of light...particularly from
# moving stars.
You aren't measuring what you yourself claim is impossible to measure, are you?
you are not making sense any more.
The curves are simulated using the notion that light emitted by orbiting stars
travels at periodically varying light speeds relative to Earth.
Observed curves are easy to match. Therefore there is good evidence that light
speed is NOT constant c wrt Earth.
Not until you've provided good evidence which such small radial velocity
changes (compared to light speed) should produce such large brightness
changes --- PUBLISH YOUR ALGORITHMS!
So where are your data showing most stars in the sky varying by about
a magnitude doe to the Earth's orbital velocity? If you are right, such
variations ought to happen.
They do... but they are far too small to measure.
Likewise, brightness changes due to radial velocity changes in cepheids
will produce brightness changes too small to detect. It's a very similar
situation.
Relativity is just a disguised aether theory.
On the contrary, relativity is an anti-aether theory.
Space is like a very low density turbulent gas. Also present are equally
turbulent 'fields'... whatever they might be.
Even an extremely low density gas would produce a quite noticeable
extinction over intergalactic distances.
That's right. It does.
Could you please give the extinction coefficient in, say, stellar magnitudes
per megaparsec?
No it doesn't - the fact that GPS works when it assumes relativity is
valid contradicts your assumption.
The GPS system DOES NOT require relativity.
If so, why are relativity included in that system?
I'm still working on the latest version and haven't placed it on the website
yet.
Are you going to post binaries which runs on Linux or Mac as well?
No. You need a wondows based system.
94% of the world's computer are.
Post source code instead, so anyone can examine what you're doing.
Or, even better, source code which anyone can compile on their own
system? Source code has another benefit: one can then oneself verify
that the code does not contain viruses or other malware instead of
merely trusting your word that it doesn't. To be frank, I just don't
download binaries posted on some random website, even if it happens to
be yours -- it's just too risky.
My programs do not contain any viruses.
So you say. There are plenty of viruses out there claiming they
aren't viruses. Of coruse you might tell the truth here, but I don't
want to risk my computer on it. After all, you're just a crackpot
among many other crackpots on the Net.
Why does the ballistic 'bunching' cause a so much larger brightness
increase? And, assuming a radial velocity change of X km/s, how many
magnitudes of brightness increase would that cause, according to you?
If you could run my program you would see the principle.
Are you saying you are unable to explain it?
I have not been able to match these with the BaTh even though the curve
shapes CAN be simulated quite precisely and easily for smaller magnitude
changes.
That's easy to fix: just add some proportionality factor, and adjust its
value for each individual star.... g
No I don't cheat.
If so, post a description of your algorithm, instead if hiding it in
executable programs!
Cpheids expand and contract with a speed of the order of magnitude of
10 km/s, often a bit more. I.e. the pulsation speed is of the same
order of magnitude as the orbital veolcity of the Earth. Now, if
these changes in radial velocity of the surfaces of these stars cause
them to vary by about one magnitude in brightness, as you claim, how
come not most stars in our skies vary in brightness by the same
amount, with a period of exactly one Earth year, due to varying radial
velocity produced by the Earth's motion? Note that it's the relative
motion between the stellar surface and the observer which counts here,
and a radial velocity change of the stellar surface should produce
the same brightness change, no matter if the radial velocity change is
due to the pulsation of the star, or due to the orbital motion of
the Earth.
No you simply don't get it. The speeds ""relative to the star""" prevail for
the majority of the distance to Earth.
When the Earth moves in its orbit around the Sun, ALL of the Earth follows
this orbital motion. Therefore the "majority of the distance to Earth"
does indeed have a radial velocity change with a period of one Earth
year and an amplitude of +- 30 km/s.
Sorry, but you just ran into an intellectual dead-end here. Your BaTH just
doesn't produce these large brightness variations - if it did, most
stars in the sky would also vary in brightness with an amplitude of
about one magnitude and a period of exactly one Earth year!
Hi!
Well I've tried it by experiment as a variable star observer and I'm
afraid I wasn't able to detect the variation either with a trained eye
or a basic photometer! Now a long period variable or a Cepheid was quite
easy!
This sort of mixup seems to be so common these days and is probably the
result of very poor science education in schools (I'm 66 BTW).
People end up taking up ideas with no conception of their realative
importance or effect. Radial velocity changes as the Earth goes around
the Sun sure but it is an effect only used for extremely accurate star
mapping or work on projects like extra Solar planets.
I noticed her today also that someone did not understand the difference
between the wavelength of EM radiation and its velocity of propogation.
Probablty the same teacher.
Regards Cliff Wright.
Do you think this effect might be noticeable, Cliff?
http://www.androcles01.pwp.blueyonde...s/image021.jpg
|