A modest proposal to solve the "missing mass" problem and related cosmological paradoxes
Abstract
Properly interpreted data from nearby galaxies (z 0.01) lead to Ω 0.082. Data from farther away galaxies (z 1) with type Ia supernovae to Ω=0.153. Data to be expected from very high redshifted galaxies (z 10.1) to Ω=0.500. And actual data from the CBR, emitted at the time at which the universe became transparent (z 1422) to Ω 0.992. All these data are simultaneously consistent with the standard big-bang picture (no inflation), in which Ω is time dependent and it is given by Ω(y)=1/ 2(y), being y -1(T+/T)1/2
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