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Rather than interpret the redshift as the recessional velocity of celes- tial bodies that increases in proportion to the distance (the foundation of universal expansion), the amount of time decreases as we probe 4 : deeper into space. In fact, this loss of time occurs in leaps and bounds, for every galac- tic (and even stellar) system possesses its own passing time. The uni- verse is also static in absolute relativity, but for reasons that are unrelated to simple stellar dynamics. Einstein, who later abandoned this hypothesis, was right, but for quite different reasons. As a matter of fact, we no longer need a cosmological constant (he was wrong). It is remarkable that Halton C. Arp’s Atlas of peculiar galaxies mentions countless cosmological incoherences in the standard model. Contrary to Hubble’s law, in some galaxy pairs the closest galaxy has a higher recession velocity than its more-distant neighbor. This sug- gests that the temporal flow between these two galaxies influences our perception of it because they are almost collinear (the visible angle being weak). Too large an angle would annul the cumulative effect of the tempo- ral density of the interval between these two galaxies. Anomalies at different recession velocities The galaxy in the foreground hides the other galaxy. According to Hubble’s law, a more-distant star has a higher recession velocity. This law does not exist in absolute relativity. Recession velocity + Higher we observe the Recession velocity distance between the = two galaxies. The chronons anomaly of this interval are partially confused with those of the more-distant galaxy. Its recession velocity therefore seems lower. Figure 92 The galaxy in the foreground hides the other galaxy. According to Hubble’s law, a more-distant star has a higher recession velocity. This law does not exist in absolute relativity. Recession velocity + Higher Recession velocity distance between the = two galaxies. The chronons anomaly of this interval are partially confused with those of the more-distant galaxy. Its recession velocity therefore seems lower. According to Hubble’s law, a more-distant star has a higher recession velocity. This law does not exist on in absolute relativity. anomaly 288 The Science of Extraterrestrials: UFOs Explained at Last * Eric Julien Anomalies at different recession velocities