C
cassini
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Rejection and Rebuttals
Dr Arthur Lynch, the distinguished mathematician, wrote:
‘The results of the observations are shown on a chart, by a series of dots, and by tracing connections between these dots it is possible to obtain a “curve” from which the law of deviation is inferred. But the actual charts show only an irregular group of dots, through which, if it be possible to draw a curve that seems to confirm the theory of Relativity, it is equally possible to draw a curve which runs counter to the theory. Neither curve has any justification.’— Arthur Lynch: The Case Against Einstein, 1932, p.264C
And if that is not hilarious enough, Professor Charles Lane Poor really spills the beans on the tricksters:
‘The table showing displacement of individual stars shows that on average the observed deflection, as given by the British astronomers, differ by 19% from the calculated Einstein value. In the place of two stars the agreement between theory and observation is very nearly perfect… in other cases however, the differences range from 11% to 60% [from the calculated Einsteinian value]. The diagrams show clearly that the observed displacements of the stars do not agree in direction with the predicted Einstein effect. This point was nowhere mentioned in the report… But, after the measurements of the plates became available for study, several investigators called attention to this fact of a radial disagreement in direction between the observed and the predicted displacements.’ —.L. Poor: Gravitation V Relativity, pp.218-226.
Professor Poor then goes on to tell us that the Relativists tried to claim the differences between the predicted and observed shifts are no greater than should be expected. Consequently, ‘This very question was investigated by Dr Henry Davies Russell, of Princeton University, a most ardent upholder of Relativity theory.’ After ‘an exhaustive examination’ he found the differences are real, and were contradictory.
‘The results given in the Report for the observations are the means (average) of the radial components (direction towards or away from the sun) only, nothing whatever being given to the directions in which the actual displacements took place. The Einstein theory requires a deflection, not only of a certain definite component, but also in a certain observed direction. To discuss the amount of the observed deflection is to discuss only one-half of the whole question, and the less important half at that. The observed deflection might agree exactly with the predicted amount, but, if it were in the wrong direction, it would disprove, not prove, the Relativity theory. You cannot reach Washington from New York by travelling south, even if you do go the requisite number of miles.’
But the Royal Society, as we have already seen, has long been taking homo consensus to Washington from New York travelling south, west and east.
‘Now the diagrams of the seven best plates, the seven taken at Sobral with the 4-inch camera, show clearly and definitely that the observed deflections are not in the directions required by the Einstein theory… The relativists either totally disregard these discordances, or invoke the heating effect of the sun to distort the vision by just the proper amount to explain them away.’
Find something that can be said to cause the problem by ‘just the proper amount’ and that explains it. Recall this ploy was used to explain the Airy and Michelson & Morley failures. But then Poor offered another solution to ‘starlight-bending’, one Cassini was well aware of back in 1650.
‘Further… there are other perfectly possible explanations of a deflection of a ray of light; explanations based on every-day, common-place grounds. Abnormal refraction in the earth’s atmosphere is one; refraction of the solar envelope is another…Such is the evidence, and are the observations, which according to Einstein, “confirm the theory in a thoroughly satisfactory manner.’----C.L. Poor: Gravitation V Relativity, pp.218-226
Dr Arthur Lynch, the distinguished mathematician, wrote:
‘The results of the observations are shown on a chart, by a series of dots, and by tracing connections between these dots it is possible to obtain a “curve” from which the law of deviation is inferred. But the actual charts show only an irregular group of dots, through which, if it be possible to draw a curve that seems to confirm the theory of Relativity, it is equally possible to draw a curve which runs counter to the theory. Neither curve has any justification.’— Arthur Lynch: The Case Against Einstein, 1932, p.264C
And if that is not hilarious enough, Professor Charles Lane Poor really spills the beans on the tricksters:
‘The table showing displacement of individual stars shows that on average the observed deflection, as given by the British astronomers, differ by 19% from the calculated Einstein value. In the place of two stars the agreement between theory and observation is very nearly perfect… in other cases however, the differences range from 11% to 60% [from the calculated Einsteinian value]. The diagrams show clearly that the observed displacements of the stars do not agree in direction with the predicted Einstein effect. This point was nowhere mentioned in the report… But, after the measurements of the plates became available for study, several investigators called attention to this fact of a radial disagreement in direction between the observed and the predicted displacements.’ —.L. Poor: Gravitation V Relativity, pp.218-226.
Professor Poor then goes on to tell us that the Relativists tried to claim the differences between the predicted and observed shifts are no greater than should be expected. Consequently, ‘This very question was investigated by Dr Henry Davies Russell, of Princeton University, a most ardent upholder of Relativity theory.’ After ‘an exhaustive examination’ he found the differences are real, and were contradictory.
‘The results given in the Report for the observations are the means (average) of the radial components (direction towards or away from the sun) only, nothing whatever being given to the directions in which the actual displacements took place. The Einstein theory requires a deflection, not only of a certain definite component, but also in a certain observed direction. To discuss the amount of the observed deflection is to discuss only one-half of the whole question, and the less important half at that. The observed deflection might agree exactly with the predicted amount, but, if it were in the wrong direction, it would disprove, not prove, the Relativity theory. You cannot reach Washington from New York by travelling south, even if you do go the requisite number of miles.’
But the Royal Society, as we have already seen, has long been taking homo consensus to Washington from New York travelling south, west and east.
‘Now the diagrams of the seven best plates, the seven taken at Sobral with the 4-inch camera, show clearly and definitely that the observed deflections are not in the directions required by the Einstein theory… The relativists either totally disregard these discordances, or invoke the heating effect of the sun to distort the vision by just the proper amount to explain them away.’
Find something that can be said to cause the problem by ‘just the proper amount’ and that explains it. Recall this ploy was used to explain the Airy and Michelson & Morley failures. But then Poor offered another solution to ‘starlight-bending’, one Cassini was well aware of back in 1650.
‘Further… there are other perfectly possible explanations of a deflection of a ray of light; explanations based on every-day, common-place grounds. Abnormal refraction in the earth’s atmosphere is one; refraction of the solar envelope is another…Such is the evidence, and are the observations, which according to Einstein, “confirm the theory in a thoroughly satisfactory manner.’----C.L. Poor: Gravitation V Relativity, pp.218-226
