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There have apparently been observations of jets of gas from quasars moving faster than light, but unfortunately I haven't been able to find any comprehensive source about it on the net. Some compitation of such observations would have been nice to have.
Does anyone have further information on this?
If true, I cannot see how that could but utterly destroy special relativity, with excuses more or less bound to end up in the epicycle hole.
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Do you think this increase (430 times) would be proportional to the amount of objects (quarks...) that a photon is made of?
No, a proton is made up of exactly 3 quarks no matter what velocity it is traveling at. Traveling at a velocity close to the speed of light does not mean that you gain particles, it means that the particles that you do have appear to be more massive. One thing that you have to keep in mind with relativity is that quantities like mass and time are dependent on your reference frame. Someone that is traveling at the same velocity as the particle would think that the particle has not gained any mass, despite the fact that people on Earth think that the particle has gained mass. In fact, someone traveling at the particle's velocity would think that it is the Earth that has gained mass, rather than the particle.
There have apparently been observations of jets of gas from quasars moving faster than light, but unfortunately I haven't been able to find any comprehensive source about it on the net. Some compitation of such observations would have been nice to have.
Does anyone have further information on this?
I have not heard about this, and I am skeptical that they have really seen this. Even if it is true, I can think of several ways that it could be happen within the framework of special relativity. For example, there is the varying speed of light theory that the speed of light has not always been the same. If this is true, then even if the gas was traveling faster than the current speed of light, it might not be going faster than what the speed of light was when it was released. Space in that area could also be warped, so that even though it is appearing to go faster than light, it might not be due to the distance it is traveling being less than it appears. Also, relativity does not necessarily rule out FTL particles, it just says that ordinary particles cannot be accelerated to a velocity that is faster than light, and that FTL particles (if they exist) cannot go slower than light.
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I love to circumvent a lot of calculation because mathematics is not what my mind does intuitively, so regarding the "speed of light" limitation imposed by the Special Theory, I think of photons as transiting space in zero time. In other words, a photon experiences no duration from source to impingement. Since zero is the limiting duration of time, lightspeed therefore cannot be any greater than what it turns out to be. It's no wonder that I suffer from "photon envy," as a result of the high-resolution Hubble photos of tiny fields of view that show multitudes of galaxies forever beyond the reach of anything other than those lowly photons!
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If particles only APPEAR to gain mass as they near the speed of light then what is causing the resistance that particles encounter?
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If particles only APPEAR to gain mass as they near the speed of light then what is causing the resistance that particles encounter?
The Higgs-Boson field.
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I have not heard about this, and I am skeptical that they have really seen this. Even if it is true, I can think of several ways that it could be happen within the framework of special relativity. For example, there is the varying speed of light theory that the speed of light has not always been the same. If this is true, then even if the gas was traveling faster than the current speed of light, it might not be going faster than what the speed of light was when it was released. Space in that area could also be warped, so that even though it is appearing to go faster than light, it might not be due to the distance it is traveling being less than it appears. Also, relativity does not necessarily rule out FTL particles, it just says that ordinary particles cannot be accelerated to a velocity that is faster than light, and that FTL particles (if they exist) cannot go slower than light.
Belatedly, I managed to dig up this article, or rather query, on the phenomenon. And of course, those are jets of radiation, why ever did I come up with gasses?
http://brahms.phy.vanderbilt.edu/~rknop … ...GN.html
Anyway, the point is at the bottom of text:
I am somewhat acquainted with astronomy and relativity. My question is this: Quasar 3C273 has a jet moving at 9 times light speed as seen from earth. This has been explained away by science by saying that the angle of the jet towards earth is just small enough to actually only give an illusion of faster than light speeds relative to earth.
However there must be a counter-jet and I have been told by an astronomer from Flagstaff, AZ that this is true. The existence of a counter-jet showing the same relative speeds would surely obviate the 'small angle' explanation and would then prove that faster-than-light velocities do exist in the universe relative to earth. This, then would indicate that relativity is wrong in its assertion that FTL relative to earth cannot be. Could you please tell me where I'm wrong. It is a major stumbling block in my acceptance of relativity. Thank you very much and could you, if possible, indicate who is answering if I should have a follow-up question. Again, thank you.
The AnswerI don't know offhand whether the counterjet for 3C273 has been seen. http://www.cfht.hawaii.edu/Reference/Bu … ...#764973 implies that it hasn't. It would be expected to be dimmer (since radiation tends to be beamed in the direction of motion) and not show apparent superluminal motion.
You are right that IF a superluminal counterjet were seen, that would mean that something is very wrong with our understanding of the system or of relativity.
I do know that the 'microquasar' in our galaxy 1915+105, shows both jets, and the one pointed towards us is apparently-superluminal while the one pointed away is not.
Judging by the reply, the phenomenon seems rather to support the relativity theories. Not what I had hoped for if I'm to be honest. Oh, well.
As for your reply, what would be the difference of something moving faster than light contrary to the speed of light once having moved faster? Sounds mostly like semantics to me or trying to fit observation into the theory instead of the other way around. Throwing in a few extra epicycles to make the planetary movements mathematically coherent with the preferred model.
You also write:
Also, relativity does not necessarily rule out FTL particles, it just says that ordinary particles cannot be accelerated to a velocity that is faster than light, and that FTL particles (if they exist) cannot go slower than light.
I don't agree. Special relativity relies on the assumption that a certain arbitrary velocity, being equal to that of electromagnetical waves, is an absolute in regard to which space and all the rest is relative. That's the only reason for the supposedly real time dilation effect etc. Anything moving faster than light must logically falsify Einstein's theory, mass or no mass.
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Not bad...
Wrong about 'spooky action-at-a-distance?'
©Getty Images
In a phenomenon called quantum entanglement, linked particles can seemingly communicate with each other across vast distances faster than the speed of light, and only "choose" a state to inhabit once they are measured. Einstein hated this phenomenon, famously deriding it as "spooky action-at-a-distance," and insisted that no influence can travel faster than light, and that objects have a state whether we measure them or not.But in a massive, global experiment in which millions of entangled particles were measured around the world, researchers found that the particles seemed to only pick a state the moment they were measured, and no sooner.
"We showed that Einstein's world-view… in which things have properties whether or not you observe them, and no influence travels faster than light, cannot be true — at least one of those things must be false," study co-author Morgan Mitchell, a professor of quantum optics at the Institute of Photonic Sciences in Spain, told Live Science in 2018.
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Not bad that is taken this long to want to have Scientific Tweak May Fix Einstein Theory 'Glitch'
A bizarre "cosmic glitch" in the theory of how the gravity of the universe works may have been mended.
The strange glitch in Einstein's description of gravity in his theory of general relativity may explain some of the mysteries of how gravity works on a cosmic scale, according to a new paper in the Journal of Cosmology and Astroparticle Physics.
Einstein's theory of general relativity describes how gravity works across the cosmos, suggesting that gravity can impact the three dimensions of space, but also a fourth dimension: time.
The theory imagines the universe as a stretchy fabric called space-time. Every object with mass (like stars, planets, or even you) bends this fabric. The more massive the object, the more it warps the space around it. Think of setting a heavy ball on a stretched rubber sheet—the sheet dips around the ball.
In general relativity, gravity is not seen as a force acting at a distance—as Newton described it—but as the effect of the bending of space-time by mass. Objects move toward each other not because they are being pulled directly by some invisible force, but because they are following the curves in space-time created by their masses. For example, Earth orbits the sun not because it is being pulled directly by the sun, but because it is traveling along the curved space-time around the sun.
General relativity made predictions that were later confirmed by experiments and observations. For instance, it predicted the bending of light by gravity (gravitational lensing), the existence of black holes, and gravitational waves, which are ripples in space-time created by violent astronomical events.
However, there are some things that the theory cannot adequately explain."This model of gravity has been essential for everything from theorizing the Big Bang to photographing black holes," study co-author Robin Wen, a recent Mathematical Physics graduate at Canada's University of Waterloo, said in a statement.
"But when we try to understand gravity on a cosmic scale, at the scale of galaxy clusters and beyond, we encounter apparent inconsistencies with the predictions of general relativity. It's almost as if gravity itself stops perfectly matching Einstein's theory. We are calling this inconsistency a 'cosmic glitch': gravity becomes around one percent weaker when dealing with distances in the billions of light years."
Scientists have now come up with a new tweak to the theory that they hope explains some of these inconsistencies.
"Almost a century ago, astronomers discovered that our universe is expanding," study co-author Niayesh Afshordi, a professor of astrophysics at the University of Waterloo and researcher at the Perimeter Institute, said in the statement.
"The farther away galaxies are, the faster they are moving, to the point that they seem to be moving at nearly the speed of light, the maximum allowed by Einstein's theory. Our finding suggests that, on those very scales, Einstein's theory may also be insufficient."
Therefore, the new model should still explain the phenomena that general relatively works for, but also those that it cannot explain.
"Think of it as being like a footnote to Einstein's theory," Wen said. "Once you reach a cosmic scale, terms and conditions apply."
Space time, warp, blackholes, demensions ect...
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Even this is not it but it will do to continue with Einstein Magical equation unites quantum physics, Einstein’s general relativity in a first
Einstein’s theory of general relativity, which explains the relationship between space, time, and gravity, is in alignment with quantum physics —- the branch of science that describes the behavior of electrons, photons, and other fundamental particles.
which covers the ability to go faster than the speed of light.
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