


Just like LIGO conspirators, black hole photographers gloriously confirmed Einstein's relativity and are now waiting for the big money to come (Breakthrough Prize, Nobel Prize etc). The problem is that Einstein's relativity is nonsense. The speed of light is VARIABLE, not constant, and accordingly spacetime does not exist. Physicists know that:
Nima ArkaniHamed (06:09): "Almost all of us believe that spacetime doesn'treally exist, spacetime is doomed and has to be replaced..." Joao Magueijo, Niayesh Afshordi, Stephon Alexander: "So we have broken fundamentally this Lorentz invariance which equates space and time [...] It's the other postulate of relativity, that of constancy of c, that has to give way..." "Lee [Smolin] and I discussed these paradoxes at great length for many months, starting in January 2001. We would meet in cafés in South Kensington or Holland Park to mull over the problem. THE ROOT OF ALL THE EVIL WAS CLEARLY SPECIAL RELATIVITY. All these paradoxes resulted from well known effects such as length contraction, time dilation, or E=mc^2, all basic predictions of special relativity. And all denied the possibility of establishing a welldefined border, common to all observers, capable of containing new quantum gravitational effects." Joao Magueijo, Faster Than the Speed of Light, p. 250 "And by making the clock's tick relative  what happens simultaneously for one observer might seem sequential to another  Einstein's theory of special relativity not only destroyed any notion of absolute time but made time equivalent to a dimension in space: the future is already out there waiting for us; we just can't see it until we get there. This view is a logical andmetaphysical dead end, says Smolin." "Was Einstein wrong? At least in his understanding of time, Smolin argues, the great theorist of relativity was dead wrong. What is worse, by firmly enshrining his error in scientific orthodoxy, Einstein trapped his successors in insoluble dilemmas..." Nobel Laureate David Gross observed, "Everyone in string theory is convinced...that spacetime is doomed. But we don't know what it's replaced by." What scientific idea is ready for retirement? Steve Giddings: "Spacetime. Physics has always been regarded as playing out on an underlying stage of space and time. Special relativity joined these into spacetime... [...] The apparent need to retire classical spacetime as a fundamental concept is profound..." "Rethinking Einstein: The end of spacetime. [...] Horava, who is at the University of California, Berkeley, wants to rip this fabric apart and set time and space free from one another in order to come up with a unified theory that reconciles the disparate worlds of quantum mechanics and gravity  one the most pressing challenges to modern physics." "We've known for decades that spacetime is doomed," says ArkaniHamed. "Weknow it is not there in the next version of physics." Pentcho Valev 


Photographers gloriously confirmed Einstein's general relativity but don't even know what it predicts:
Avery Broderick: "In general relativity radio waves fall just as apples do"https://youtu.be/lnJi0Jy692w?t=1406 General relativity predicts that, unlike the speed of falling apples, the speed of light falling in a gravitational field absurdly DECREASES (the acceleration of falling photons is NEGATIVE, 2g near Earth's surface): "Contrary to intuition, the speed of light (properly defined) decreases as the black hole is approached. [...] If the photon, the 'particle' of light,is thought of as behaving like a massive object, it would indeed be accelerated to higher speeds as it falls toward a black hole. However, the photonhas no mass and so behaves in a manner that is not intuitively obvious." "...you will find in section 3 of that paper Einstein's derivation of the variable speed of light in a gravitational potential, eqn (3). The result is: c'=c0(1+Ï†/c^2) where Ï† is the gravitational potential relative to the point where the speed of light c0 is measured. Simply put: Light appears to travel slower in stronger gravitational fields (near bigger mass).. [...] You can find a more sophisticated derivation later by Einstein (1955) from the full theory of general relativity in the weak field approximation. [...] Namely the 1955 approximation shows a variation in km/sec twice as much as first predicted in 1911." "Thus, as Ï† becomes increasingly negative (i.e., as the magnitude of the potential increases), the radial "speed of light" c_r defined in terms of the Schwarzschild parameters t and r is reduced to less than the nominal value of c." This absurd decrease in the speed of falling light was a fudge factor Einstein had to introduce in his 1915 "theory", in order to reconcile the miraculous gravitational time dilation he had fabricated in 1911 and the gravitational redshift predicted by Newton's theory. The speed of falling light does increase like the speed of falling apples (near Earth's surface the acceleration of falling photons is g = 9.8 m/s^2) but this is a prediction of Newton's theory unequivocally confirmed by the PoundRebkaSnider experiment: "To see why a deflection of light would be expected, consider Figure 217, which shows a beam of light entering an accelerating compartment. Successive positions of the compartment are shown at equal time intervals. Because the compartment is accelerating, the distance it moves in each time intervalincreases with time. The path of the beam of light, as observed from inside the compartment, is therefore a parabola. But according to the equivalence principle, there is no way to distinguish between an accelerating compartment and one with uniform velocity in a uniform gravitational field. We conclude, therefore, that A BEAM OF LIGHT WILL ACCELERATE IN A GRAVITATIONAL FIELD AS DO OBJECTS WITH REST MASS. For example, near the surface of Earth light will fall with acceleration 9.8 m/s^2." University of Illinois at UrbanaChampaign: "Consider a falling object. ITSSPEED INCREASES AS IT IS FALLING. Hence, if we were to associate a frequency with that object the frequency should increase accordingly as it falls to earth. Because of the equivalence between gravitational and inertial mass, WE SHOULD OBSERVE THE SAME EFFECT FOR LIGHT. So lets shine a light beam from the top of a very tall building. If we can measure the frequency shift as the light beam descends the building, we should be able to discern how gravity affects a falling light beam. This was done by Pound and Rebka in 1960. They shone a light from the top of the Jefferson tower at Harvard and measured the frequency shift. The frequency shift was tiny but in agreement with the theoretical prediction. Consider a light beam that is travelling away from a gravitational field. Its frequency should shift to lower values.This is known as the gravitational red shift of light." Albert Einstein Institute: "One of the three classical tests for general relativity is the gravitational redshift of light or other forms of electromagnetic radiation. However, in contrast to the other two tests  the gravitational deflection of light and the relativistic perihelion shift , you do not need general relativity to derive the correct prediction for the gravitational redshift. A combination of Newtonian gravity, a particle theory of light, and the weak equivalence principle (gravitating mass equals inertialmass) suffices. [...] The gravitational redshift was first measured on earth in 196065 by Pound, Rebka, and Snider at Harvard University..." R. V. Pound and J. L. Snider, Effect of Gravity on Gamma Radiation: "It is not our purpose here to enter into the manysided discussion of the relationship between the effect under study and general relativity or energy conservation. It is to be noted that no strictly relativistic concepts are involved and the description of the effect as an "apparent weight" of photons issuggestive. The velocity difference predicted is identical to that which amaterial object would acquire in free fall for a time equal to the time offlight." Pentcho Valev 


The speed of light is OBVIOUSLY VARIABLE:
Stationary light source, moving receiver: The speed of the light pulses as measured by the source is c = df where d is the distance between the pulses and f is the frequency measured by the source. The speed of the pulses as measured by the receiver is c'= df' > c where f' > f is the frequency measured by the receiver. In the quotation below Banesh Hoffmann clearly explains that, "without recourse to contracting lengths, local time, or Lorentz transformations" (as was the case in 1887), the MichelsonMorley experiment proves Newton's variable speed of light (c'=cÂ±v) and disproves the constant (independent of the speed of the emitter) speed of light (c'=c) posited by the ether theory and adopted by Einstein: Banesh Hoffmann, Relativity and Its Roots, p.92: "Moreover, if light consists of particles, as Einstein had suggested in his paper submitted just thirteen weeks before this one, the second principle seems absurd: A stone thrown from a speeding train can do far more damage than one thrown from a train at rest; the speed of the particle is not independent of the motion of the object emitting it. And if we take light to consist of particles and assume that these particles obey Newton's laws, they will conform to Newtonian relativity and thus automatically account for the null result of the MichelsonMorley experiment without recourse to contracting lengths, local time, or Lorentz transformations. Yet, as we have seen, Einstein resisted the temptation to account for the null result in terms of particles of light and simple, familiar Newtonian ideas, and introduced as his second postulate something that was more or less obvious when thought of in terms of waves in an ether. If it was so obvious, though, why did he need to state it as a principle? Because, having taken from the idea of light waves in the ether theone aspect that he needed, he declared early in his paper, to quote his own words, that "the introduction of a 'luminiferous ether' will prove to be superfluous." Wikipedia: Newton's variable speed of light, c'=c Â± v, explains the result of the MichelsonMorley experiment: "Emission theory, also called emitter theory or ballistic theory of light, was a competing theory for the special theory of relativity, explaining theresults of the Michelsonâ€“Morley experiment of 1887. [...] The namemost often associated with emission theory is Isaac Newton. In his corpuscular theory Newton visualized light "corpuscles" being thrown off from hot bodies at a nominal speed of c with respect to the emitting object, and obeying the usual laws of Newtonian mechanics, and we then expect light to be moving towards us with a speed that is offset by the speed of the distant emitter (c Â± v)." When Einsteinians teach the crucial falsehood "The speed of light is constant" they know no limits: Michelle Thaller: "The speed of light is so constant that the universe actually changes everything so that you never see it going any other speed" Joe Wolfe: "At this stage, many of my students say things like "The invariance of the speed of light among observers is impossible" or "I can't understand it". Well, it's not impossible. It's even more than possible, it is true. This is something that has been extensively measured, and many refinements to the Michelson and Morley experiment, and complementary experiments have confirmed this invariance to very great precision. As to understanding it, there isn't really much to understand. However surprising and weird it may be, it is the case. It's the law in our universe. The fact of the invariance of c doesn't take much understanding." Neil deGrasse Tyson, Death by Black Hole: And Other Cosmic Quandaries, pp. 123124: "If everyone, everywhere and at all times, is to measure the same speed for the beam from your imaginary spacecraft, a number of things have to happen. First of all, as the speed of your spacecraft increases, the length of everything  you, your measuring devices, your spacecraft  shortensin the direction of motion, as seen by everyone else. Furthermore, your own time slows down exactly enough so that when you haul out your newly shortened yardstick, you are guaranteed to be duped into measuring the same old constant value for the speed of light. What we have here is a COSMIC CONSPIRACY OF THE HIGHEST ORDER." Brian Greene: "Einstein proposed a truly stunning idea  that space and time could work together, constantly adjusting by exactly the right amount so that no matter how fast you might be moving, when you measure the speed of light it always comes out to be 671000000 miles per hour." Robert Scherrer: "In fact, the laws for adding and subtracting speeds have to conspire to keep the speed of the light the same no matter how fast or in what direction an observer is moving. The only way to make this happen isfor space and time to expand or contact as objects move." Brian Greene: "If space and time did not behave this way, the speed of light would not be constant and would depend on the observer's state of motion.But it is constant; space and time do behave this way. Space and time adjust themselves in an exactly compensating manner so that observations of light's speed yield the same result, regardless of the observer's velocity." Lisa Randall, Michio Kaku, Brian Cox, Neil deGrasse Tyson, Brian Greene: "Light travels at the same speed no matter how you look at it. No matter how I move relative to you light travels at the same speed. No matter who is doing the measurement and no matter what direction you are moving the speed of light is the same. The speed of light is the same no matter what direction or how fast... As you travel faster time slows down. Everything slows down. Everything slows down. Time slows down when you move. Time passes at a different rate. Clocks run slow. It's a monumental shift in how we see the world. It's a beautiful piece of science. It's a beautifully elegant theory.It's a beautiful piece of science. It's a beautiful piece..." Pentcho Valev 