Jesus and Christ - стр. 11
To get a little closer to understanding it, imagine one second in the lifetime of our universe (about 14 billion years). It doesn't seem to mean much. Now imagine that it is the first second of the birth of our universe. Now imagine one second as the length of the lifetime of our universe, instead of those 14 billion years. Now imagine all the seconds that make up the life length of our universe as individual universes, that is, as many universes as there are seconds in 14 billion years (don't forget the diameter of one universe is about 93 billion light years). Now let's remember how a second is scientifically defined: an interval of time equal to 9,192,631,770 periods of radiation corresponding to the transition between the two superfine levels of the ground state of a caesium-133 atom at rest at 0 degrees Kelvin. The beginning of the scale (0 Kelvin) coincides with absolute zero. Absolute zero temperature is the minimum temperature limit that a physical body in the universe can have. That is, cold cannot be reached below this value. On the Celsius scale, absolute zero corresponds to a temperature of -273.15 °C.
Now you're probably wondering why this is here. It's to give you some idea of what infinity is. So, let's continue the comparison: imagine now not how many seconds have passed since the beginning of the big bang (well, since this theory of the birth of the universe is the prevailing one), but how many of these periods of radiation of the cesium atom have occurred during this time. Now let's remember that we have conventionally visualized each second of the life of our universe as a separate universe. Can you visualize such a multitude? Yes? Then let's go further. Now imagine how many periods of radiation the cesium atoms in general had in all the seconds of life of these universes and how many of these periods all these atoms had. Now imagine that all this diversity is one second, and all these universes are one atom. Now imagine that this atom, which consists of the enormous number of universes described, is one atom out of the whole number of atoms that make up the matter in our universe. Now imagine a number equal to the number of atoms in all these universes. That number is somehow hard to even visualize, let alone imagine, isn't it? Now let's move on to time periods. Imagine the life of these universes, from the Big Bang to collapse, that is, compression, explosion and expansion, as one second (the time of years of the supposed life of our universe is 150 billion). Now imagine all the seconds that make up the lifetime of our universe as a succession of alternating times of existence of all these hypothetical universes we have presented, from explosion to collapse, that is, as a process in which in every second of the existence of our universe, as if this gigantic number of universes is born and dies. Imagine how this incredible number of universes, each with trillions of galaxies, with billions and trillions of stars, suddenly multiplied by 31,500,500 (the approximate number of seconds in a year) multiplied by 150 billion (the time of years of the supposed life of our universe)? Such a peculiar fireworks display in hyperspace and hypertime. Can you imagine it? And I'll tell you – it's the most minuscule fraction of time that can be determined at all. Why? Because for eternity, any greatest value of time is equal to the smallest, infinitesimal period of time. You will say, "What is the meaning of this unimaginable amount of time, matter, and space for us? And I will answer you: someday this quantity will pass away and will turn into the very smallest particles of time, distance and mass, which we took for comparison. That's what eternity is for. And it is the same in any direction of the plane – eternal time and space.