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ABSTRACT In a recent paper: “On the time dependency of a₀” the authors claim that they have tested “one of the predictions of the Scale Invariant Vacuum (SIV) theory on MOND” by studying the dependence of the Modified Newtonian Dynamics (MOND) acceleration at two data sets, low-z (3. 2 10^-4 z 3. 2 10^-2) and high-z (0. 5 z 2. 5). They claim “both samples show a dependency of a₀ from z”. Here, the work mentioned above is revisited. The explicit analytic expression for the z-dependence of the a₀ within the SIV theory is given. Furthermore, the first estimates of the ₘ within SIV theory give ₌=0. 28 0. 04 using the low-z data only, while a value of ₌=0. 055 is obtained using both data sets. This much lower ₘ leaves no room for non-baryonic matter! Unlike in the mentioned paper above, the slope in the z-dependence of A₀= ₁₀ (a₀) is estimated to be consistent with zero Z-slope for the two data sets. Finally, the statistics of the data are consistent with the SIV predictions; in particular, the possibility of change in the sign of the slopes for the two data sets is explainable within the SIV paradigm; however, the uncertainty in the data is too big for the clear demonstration of a z-dependence yet.
V. G. Gueorguiev (Fri,) studied this question.