![]() To believe that the facts and figures here detailed amount to no more than happy coincidence, without doubt constitutes a greater exercise of faith than that of the Christian who affirms the theistic design of the universe. If the universe were slightly less massive, an insufficiency of helium would result in a shortage of the heavy elements - again, resulting in no life. If the universe were slightly more massive, an overabundance of deuterium from the big bang would cause stars to burn too rapidly for the formation of complex life. The mass density of the universe is finely balanced to permit life to a degree of one part in 10 59. If the universe expanded too slowly, the universe would quickly collapse - before the formation of stars. If the universe expanded too fast, matter would expand too quickly for the formation of stars, planets and galaxies. The rate at which the universe expands must be finely tuned to one part in 10 55. ![]() This would render them incapable of producing heavy elements. If this value were to be decreased slightly, all stars would be at least 20% less massive than the sun. ![]() This would mean that stellar burning would be too brief and too uneven to support complex life. If this value were to be increased slightly, all stars would be at least 40% more massive than our Sun. The ratio of the electromagnetic force to gravity must be finely balanced to a degree of one part in 10 40. If this fundamental constant were to be any larger or smaller than this, the electromagnetism would dominate gravity - preventing the formation of galaxies, stars and planets. The ratio of electrons to protons must be finely balanced to a degree of one part in 10 37. Again, the result would be no planets, no solar systems and hence no life. Conversely, if the amount of matter converted were increased to 0.8% instead of 0.7%, fusion would occur so rapidly that no hydrogen would remain. Without the presence of heavy elements, planets would not form and hence no life would be possible. If the amount of matter converted were slightly smaller - say, 0.6% instead of 0.7% - a proton would not be able to bond to a neutron and the universe would consist only of hydrogen. ![]() When two hydrogen atoms fuse, 0.7% of the mass of the hydrogen atoms is converted into energy. The sun derives its ‘fuel’ from fusing hydrogen atoms together. Either way, the universe would be uninhabitable.Īnother finely tuned value is the strong nuclear force that holds atoms - and therefore matter - together. Conversely, if this factor were increased slightly, the universe would consist only of large black holes. If this factor were even slightly smaller, the cosmos would exist exclusively as a collection of gas - stars, planets and galaxies would not exist. The ripples in the universe left over from the original ‘Big Bang’ singularity (often referred to as CMB, or cosmic background radiation) are detectable at one part in 10 5 (100,000). The numbers one calculates from the facts seem to me so overwhelming as to put this conclusion almost beyond question.”Ĭosmic fine tuning – Fundamental Constants British astrophysicist Fred Hoyle writes: “A common sense interpretation of the facts suggests that a super intellect has monkeyed with physics, as well as with chemistry and biology, and that there are no blind forces worth speaking about in nature. ![]() The degree to which the constants of physics must match precise criteria is such that a number of agnostic scientists have concluded that indeed there is some sort of transcendent purpose behind the cosmic arena. That ironed out wrinkles in its early chaotic self and meant that even now far-flung parts were once in close contact, so could swap heat.The concept of cosmic fine tuning relates to a unique property of our universe whereby the physical constants and laws are observed to be balanced on a ‘razor’s edge’ for permitting the emergence of complex life. In its earliest instants, the universe expanded faster than light ( light’s speed limit only applies to things within the universe). That seems a naked assault on the laws of thermodynamics.Ĭosmic inflation solves these problems at a stroke. Not only that, but even bits of it far off in different directions as observed from Earth have roughly the same temperature, although in an expanding universe there wouldn’t have been time for heat to pass between them to even things out. The first is that Einstein’s general theory of relativity famously makes mass bend space and time – so you’d expect a universe like ours, containing mass, to be overall curved in some way, either in on itself like a ball (“positive” curvature) or out on itself like a saddle (“negative” curvature). Inflation was invented to explain a couple of features of the universe that are really hard to explain without it. Cosmic inflation is a faster-than-light expansion of the universe that spawned many others. ![]()
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