Does General Relativity Theory Strongly Underestimate Gravitational Redshift for Objects Such as Black Holes and Quasars?
Résumé
General relativity theory ignores Lorentz relativistic mass. The rejection of Lorentz relativistic mass by the general relativity research community has happened without first properly investigating what predictions incorporating it have led to. Recent published research has shown it leads to simpler and more logical predictions for a series of phenomena, such as not requiring dark energy in order to give correct predictions for high Z supernovas. Here, we show that the inclusion of Lorentz relativistic mass has a dramatic impact on the predicted redshift from high gravitational field objects, such as quasars, and stellar objects fitting the mathematical properties of black holes. Taking into account Lorentz relativistic mass provides very di↵erent interpretations of quasars and many other objects; for example, it can explain the lack of observed time dilation in quasars. It's possible that, in the past, physicists have simply interpreted observations through a possibly incorrect mathematical lens called general relativity theory. Incorporating Lorentz relativistic mass likely explains, for example, why high Z quasars have little or no observed velocity time dilation, something without a good explanation in the standard model.
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