Fundamental Disagreements of Experiments with Theories on Gravitation and Cosmology
Abstract
From the equivalence principle (EP) and experiments on gravitational (G) time dilation (GTD) it is proved that the standards of observers located in different ``distances'' from the earth are physically different with respect to each other. Thus the current mathematical relationships between their measurements are physically inhomogeneous. This has caused fundamental errors in gravitation, cosmology and astrophysics. The true transformations between basic parameters of bodies located in different field positions, derived from just experimental facts, are used to test fundamental hypotheses in current literature. G fields do not exchange energy with bodies and radiation, but just momentum. The G energy comes the bodies. The average relative distances and cosmological redshifts in the universe cannot change after universe expansion because the average increase of distances (G potentials) would change the sizes of particles in identical proportion. Locally, atoms must be evolving, indefinitely, in closed cycles between states of gas and linear black hole. The last ones, after recovering energy, must explode thus regenerating gas. Most of the universe must be in state of black galaxy cooled down by linear black holes. They must account for the CMBR. The new scenarios are also explained by using particle models consistent with the EP.
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