Quasar APM08279+5255 observed with 11'' telescope. Distance: light travelled 12.05 billion Ly.

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... galaxy with the largest distance í µí±’í µí±’ = 12 ⋅ 10 9 í µí°¿í µí°¿í µí±¦í µí±¦, that we have already observed with our 11 inch telescope, was APM08279+ 5255 (see figure 10) Thereby the light travelled this distance while the space expanded already to an even larger distance. In this section by distance we mean the distance travelled by the light. ...

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... to our hypothesis we derived S ~ d -2 and we derive further that the HST should be able to observe quasars that are 8 times as far away as those that we can observe using our telescope C11. Based on the distance of the galaxy APM08279+5255 (see figure 10), which is 12.05 billion Ly, the HST should be able to observe quasars at the distance í µí±‘í µí±‘ í µí°»í µí°» = í µí±‘í µí±‘ í µí±†í µí±† ⋅ 8 = 12.05 ⋅ 10 9 í µí°¿í µí°¿í µí±¦í µí±¦ ⋅ 8 = 96.4 ⋅ 10 9 í µí°¿í µí°¿í µí±¦í µí±¦. ...

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... general radiation achieves the distance q by a superposition of the velocity of propagation and by the expansion. Thereby the expansion can be much more effective than the propagation, see for instance figure 10. In order to achieve a lower bound for the density u at the distance q we omit the propagation. ...