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Pré-Publication, Document De Travail Année : 2022

Can Lorentz Relativistic Mass Explain the Hubble Tension ?

Espen Gaarder Haug
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Résumé

The Hubble tension several prominent researchers have claimed brought cosmology into a crisis. We show that Hubble tension seems to be explained when one take into account Lorentz relativistic mass. The general relativity theory community rejected Lorentz relativistic mass long time ago without properly investigating what predictions it would lead to if incorporating it. Ignoring Lorentz relativistic will overestimate the Hubble constant with about 4.19 when calibrated to the full distance ladder of 1a Supernovas. This we find from looking at redshifts from 580 SN 1a taken from the Union-2 database. This likely explains why when only calibrating t low z supernovas or the CMB that one then get an Hubble constant of around 68 km s 1 Mpc 1 versus about 73 km s 1 Mpc 1 when using the full distance ladder of supernova 1a's. This large di↵erence in Hubble constants predictions is known as Hubble tension that seems like it can be fully explained if one take into account Lorentz relativistic mass. That Lorentz relativistic mass seems to explain the Hubble tension should not been isolated but be seen together with recent published research that shows that incorporating Lorentz relativistic mass gives supernova 1a predictions about magnitude versus redshift that are in line with observations without the need of dark energy. Further micro black holes then perfectly fit all properties of the Planck scale something general relativity theory cannot do. It even seems we get a simpler cosmology. All in all, there starts to be much evidence in favor of incorporating Lorentz relativistic mass, something that is totally ignored in Newton and general relativity theory today.
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Dates et versions

hal-03844653 , version 1 (08-11-2022)

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Paternité - Pas d'utilisation commerciale - Pas de modification

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  • HAL Id : hal-03844653 , version 1

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Espen Gaarder Haug. Can Lorentz Relativistic Mass Explain the Hubble Tension ?. 2022. ⟨hal-03844653⟩
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