you can read below the animation of right side of this page on wikiapediaDaleSpam said:This is not true. You can have any two of tachyons, relativity, and causality. So tachyons do not by themselves contradict relativity.
Which agrees exactly with what I said in post 30 and does not support in any way what you said in post 3. The first bold says that if you have relativity and tachyons then you violate causality. The second bold says that if you have tachyons and causality then you violate relativity. As I said, you can have any two of tachyons, relativity, and causality.ravikannaujiya said:that's what wikipedia says:
...which (according to special relativity) would lead to violations of causality.[3] Potentially consistent theories that allow faster-than-light particles include those that break Lorentz invariance, the symmetry underlying special relativity, so that the speed of light is not a barrier.
ravikannaujiya said:I am still on the third post. But when you are trying to misinterpret the written word, then what can I say.
if you are saying that tachyon and relativity can exist together but then causality will be voileted.
tachyon and causaltiy can exist together but the relativity will be voiletd. Isn't it silly. when relativity always lead to causality.Outcome of relativity is cuasality. If you had any sense you can think that relativity and causality belong to one set of theory. One leads to another and have to satisfy each other . and you say tachyon may be with one of them and not with the other at the same time.
Yes, it implies not only causality but this is also a Lorentz invariance which is the symmetry underlying special relativity. If Lorentz invariance breaks down, I don't think SR would work. The simple reason is that the symmetry is broken.Parlyne said:This is simply not correct. At its most basic, all that special relativity states is that the spacetime interval between any two events is the same in all inertial frames of reference, where the spacetime interval is defined to be
[tex]s = (c\Delta t)^2 - |\Delta \vec{x}|^2.[/tex]
That's it. This only implies causality if you add the presumption that nothing moves faster than c.
If we are talking about only math then fine. But physics would not allow to do it, if laws of physics are same everywhere.Parlyne said:It does, however, tell you that nothing can move slower than c in one frame and faster than it in another; but, that does not preclude objects which move faster than c in all frames. And, in fact, the math allows for that possibility.
Parlyne said:I will also note, in reference to several previous posts, that one does not, in fact, need to presume the invariance of the speed of light. In the formulation above, c is just a conversion factor between units of time and those of space. That it is the speed at which light moves, in this way of looking at things, can be derived from the masslessness of light.
OK, please return and post when you believe you have some support for your incorrect claims of post 3.ravikannaujiya said:I am still on the third post.
I disagree, but it is irrelevant.ravikannaujiya said:But when you are trying to misinterpret the written word, then what can I say.
if you are saying that tachyon and relativity can exist together but then causality will be voileted.
tachyon and causaltiy can exist together but the relativity will be voiletd. Isn't it silly. when relativity always lead to causality.Outcome of relativity is cuasality. If you had any sense you can think that relativity and causality belong to one set of theory. One leads to another and have to satisfy each other . and you say tachyon may be with one of them and not with the other at the same time.
Because in the reference frame of the measuring device the speed of light "against the direction of light" is c, not V+c.ravikannaujiya said:if you are right why we do not measure the speed of light (V+c) moving against the direction of light, instead we are just able to measure c.
See my post 28 for a detailed example.ravikannaujiya said:But anything that moves faster than light could not be measured until and unless light from that object reaches to the measuring device as it would be simply unobservable object. ... If light waves reach before the object how one can conclude that object moved faster than light.
ravikannaujiya said:the example of Tachyon that you took do not consider the Chereknove effect produced by it. Wikipedia also says that, "Because a tachyon would always move faster than light, we would not be able to see it approaching. After a tachyon has passed nearby, we would be able to see two images of it, appearing and departing in opposite directions. The black line is the shock wave of Cherenkov radiation, shown only in one moment of time. This double image effect is most prominent for an observer located directly in the path of a superluminal object (in this example a sphere, shown in grey). The right hand bluish shape is the image formed by the blue-doppler shifted light arriving at the observer—who is located at the apex of the black Cherenkov lines—from the sphere as it approaches. The left-hand reddish image is formed from red-shifted light that leaves the sphere after it passes the observer. Because the object arrives before the light, the observer sees nothing until the sphere starts to pass the observer, after which the image-as-seen-by-the-observer splits into two—one of the arriving sphere (to the right) and one of the departing sphere (to the left).
Irrelevant, as Nugatory pointed out.ravikannaujiya said:the example of Tachyon that you took do not consider the Chereknove effect produced by it.
After a tachyon has passed nearby, we would be able to see two images of it, appearing and departing in opposite directions.
ravikannaujiya said:Yes, it implies not only causality but this is also a Lorentz invariance which is the symmetry underlying special relativity. If Lorentz invariance breaks down, I don't think SR would work. The simple reason is that the symmetry is broken.
If we are talking about only math then fine. But physics would not allow to do it, if laws of physics are same everywhere.
Pls just think of consequences in nature and laws of physics if speed of light need not to be invariant. Masslessness of the light resides in the nature of light itself, as it has zero rest mass but has momentum given by hλ or h*neu/c.
if you use relativistic mass formula, then
realtivistic mass mv= rest mass/(√1-(v/c)2)
Now you can find what kind of mass you get if you put v=c or v > c.
for any patricle if you put v=c, you get that is not defined in mathematics.
If you choose V > c, you get that is not permisssible for mass in real world of physics.
You also can refer to wikipedia on that or any so-called reliable science reference.1977ub said:If such a thing were to happen, make a note of the time. When it happens to a confederate, he will do so as well. You'll have two sets of location & time coordinates. Voilà - velocity
I know I am right whether you accept it or not. I gave you the book and if you do not rely on it, I have shown you some lines on wikipedea and you find it so called Nugatory, leave the matter apart. You can measure speed of anything more than that of light theoreticly or practically. But I don't see it anyway simply when nothing can move faster than light then how can I measure it.DaleSpam said:Irrelevant, as Nugatory pointed out.
I still await a reference supporting your post 3, or your admitting that post 3 was wrong.
Parlyne said:Who said anything about violating Lorentz invariance? The simple statement I gave not only entails Lorentz invariance, it also requires translation and time translation invariance, giving the actual symmetry group of SR - Poincare invariance. Tachyons do not violate this. They only violate causality, which is not inherent in either this formulation of SR or that in terms of Einsteins original postulates.
Again, tachyons do not violate Poincare invariance; so, you are simply wrong here.
I think you misunderstood my statement. The parameter c is a frame-invariant constant no matter how you formulate SR. My statement was simply that it only corresponds to the speed at which light actually travels because photons are massless. Were they not massless (and, strictly, we don't actually know that they are exactly massless - only that their mass is smaller than 10-18 eV) their speed would vary with energy; but, in no frame would it be equal to c.
As for relativistic mass, it is a deprecated concept in the practice of physics, as it adds nothing of any use, but tends to lead to a great deal of confusion. The problem is that relativistic mass is really nothing more than energy divided by c2. But, if we think about it that way, we can see that there is a perfectly consistent way to look at the kinematics of tachyonic particles if we just allow their masses to be imaginary valued. Then, since the Lorentz factor will also be imaginary valued, energy and momentum will be real valued and quite sensible.
ravikannaujiya said:When you say Causality is voileted but not the SR, speed would vary with energy, allow masses to be imaginary then you can imagine anything you want. But I do not agree with you just because I don't find nature voilating some fundamental principle of causality but not the others. And you also need not to be agree with me... :)
So do I correctly understand that you rescind your comment of post 3? If not, then you still need to post a valid reference supporting it. Neither the textbook nor the Wikipedia article made any comment supporting your post 3.ravikannaujiya said:You can measure speed of anything more than that of light theoreticly or practically.
Agreed, but the point is that it is a limit on the physics, not a limit on the measuring devices. I.e. we don't measure anything going faster than c because we haven't found anything that goes faster than c, not because our devices are incapable of measuring speeds faster than c.ravikannaujiya said:But I don't see it anyway simply when nothing can move faster than light then how can I measure it.
The defining feature of transverse waves is that they can be polarized, whereas longitudinal waves cannot.Aadrish said:i have a question
why light waves are transverse waves?
as transverse waves are mechanical waves so these require a medium to propagate. while light don't require any material
Aadrish said:i have a question
why light waves are transverse waves?
as transverse waves are mechanical waves so these require a medium to propagate. while light don't require any material
krash661 said:there was an experiment from the ISS in the last couple of weeks that may help with this,
ALPHA MAGNETIC SPECTROMETER RESULTS
nasa.gov
Recent results from the AMS experiment
cern webcast
Potential Dark Matter Discovery a Win for Space Station Science
space.com
there are also these articles,
Homing in on Dark Matter
Three potential detections from deep underground could be from dark matter particles.
sky and telescope magazine
Researchers see potential hints of dark matter; gamma-ray flare up is cosmic coincidence
IOP-institute of physics
Parlyne said:Despite the significant hype, the AMS results in no way point to dark matter any more than previous data about the same phenomenon had. The positron excess under discussion was actually first noted about 5 years ago by the PAMELA experiment; and, there was a flurry of papers at the time discussing the possible natures of dark matter models that could explain such a result. However, as was known then, the excess may well be the result of totally unrelated astrophysical processes, such as pulsars. And, because of the presence of galactic magnetic fields, the positrons can't be particularly reliably traced back to their source (or sources), meaning that we can't directly test whether they originate at the center of the galaxy (as a dark matter signal must) or from other more local sources. AMS has put out far more detailed and more precise data. However, at least as yet, the data shows no features that we're already present in the PAMELA data. Therefore, any attribution to dark matter is, at best, premature.
krash661 said:the best info is that nasa.gov and cern.
those were the actual releases.
i'm trying to find a written version of the actual release, but it's not as easy as i thought.
in that release there were questions and comments/answers that pertain to the tittle of this topic.
I'm trying to find it now.
krash661 said:just so i understand,
are you saying it was a waste of time and resources and useless ?
so the problem is finding the source of dark matter ?
" We already were confident that there is an unknown source of positrons above 10 GeV. ",
is this what you are referring to ?
it was followed with this comment,
" What we wanted to know from AMS was whether the effect continues at even higher energy, well above 100-200 GeV, and whether their more detailed observations would give us insight into whether this increase is due to a new astronomical effect or a new particle physics phenomenon. "
ZapperZ said:Please don't make this type of "citation". You are not providing other members the proper information for them to look it up if they don't know what is going on.
Either you point to the EXACT source, or use the proper format that is used to cite a publication.
In case you missed an earlier post, there is a source for you to not only read a report on this result, but to actually download the exact PRL paper for free from the PRL website.
http://physics.aps.org/articles/v6/40
So one gets to actually hear this from the horse's mouth itself, rather than through some 2nd or 3rd hand news.
Zz.
Parlyne said:Not at all. I'm just saying that the reporting of this result as evidence for dark matter is not a responsible representation of the data. I happen to think the AMS is an awesome experiment; and, I was actually quite excited when the shuttle mission was added in order to deliver it. Furthermore, I take no issues with the actual data or the work being done with it. And, as more data is collected, it may actually be able to help answer the question of the source of the positron excess - both by extending our knowledge about it to higher energy and by looking for directional dependence.
No, it's finding the source of the excess positrons. It certainly could be that they come from dark matter annihilation; but, they could also come from astrophysical processes that nothing to do with dark matter.
I'm not sure exactly what you're quoting; but, it seems to get at the basics of the issue.
Bill_K said:We just had a recent thread on mirror matter.
krash661 said:I can not provide sources.
and also the comment you quoted was me doing just that.
i believe it says,
" those were the actual releases.
i'm trying to find a written version of the actual release, but it's not as easy as i thought. ",
and then the actual paper was provided after that comment of mine..
pay attention here.
edit-
and also what you posted is not the actual release.
ravikannaujiya said:the speed of light is a universal speed limit because no one could measure the speed of anything more than that of light, not even of the light.
How does that help measure the speed of a particle going faster than light?ash64449 said:yes.we can measure if particles go faster than speed of light.particles whould create cherenkov radiation if it moved faster than speed of light.