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Why low entropy in the past? Thema1 #104153 How do we account for the low entropy of the early universe reflected in the extreme - but not perfect - homogeneity of the distribution of matter and energy shortly after the Big Bang? When gravity is prominent - as in the early universe - a smooth distribution is unstable and of low entropy. | |
+Verweise (3) - VerweiseHinzufügenList by: CiterankMapLink[1] Entropy (arrow of time)
Zitieren: Wikipedia Zitiert von: Peter Baldwin 1:20 AM 10 August 2011 GMT URL: | Auszug - The thermodynamic arrow is often linked to the cosmological arrow of time, because it is ultimately about the boundary conditions of the early universe. According to the Big Bang theory, the Universe was initially very hot with energy distributed uniformly. For a system in which gravity is important, such as the universe, this is a low-entropy state (compared to a high-entropy state of having all matter collapsed into black holes, a state to which the system may eventually evolve).As the Universe grows, its temperature drops, which leaves less energy available to perform useful work in the future than was available in the past. Additionally, perturbations in the energy density grow (eventually forming galaxies and stars). Thus the Universe itself has a well-defined thermodynamic arrow of time. But this does not address the question of why the initial state of the universe was that of low entropy. If cosmic expansion were to halt and reverse due to gravity, the temperature of the Universe would once again grow hotter, but its entropy would also continue to increase due to the continued growth of perturbations and the eventual black hole formation,[2] until the latter stages of the Big Crunch when entropy would be lower than now. |
Link[2] Gravity, entropy, and cosmology: in search of clarity
Zitieren: Wallace, David Zitiert von: Peter Baldwin 1:28 AM 10 August 2011 GMT URL:
| Auszug - The genuinely cogent worry is not that the early Universe was in a high entropy state, nor that it had higher entropy than the present Universe, but that it is apparently in thermal equilibrium, and hence in the maximum-entropy state available to it; this, it would seem, is incompatible with the fact that the present-day Universe is not in thermal equilibrium. Let us call this the Initial State Problem.
There is a proposed approach to this problem which has become extremely popular in the literature on the foundations of statistical mechanics. Its claim: the assumption that uniformity equates to high entropy ignores the existence of gravitation. Given the attractive nature of gravity (it is claimed), a uniform state is actually much lower-entropy than a much more clumped state. Various forms of argument are given for this; frequently, it is argued that when attractive long-range forces are present, matter has a higher entropy when highly concentrated than when diffuse, and black holes (with their well-known stratospheric entropies) are exhibited as a limiting case |
Link[3] The Cosmic Origins of Time's Arrow
Zitieren: Sean M. Carroll - Theoretical physicist, California Institute of Technology Zitiert von: Peter Baldwin 4:15 AM 10 August 2011 GMT Citerank: (4) 104159Fluctuations in de Sitter spaceCosmologist Sean Carroll has proposed that low entropy may result from fluctuations in De Sitter space - a vacuum except for dark energy and the end point of expanding space time. Some fluctuations lead to cosmological inflation, giving rise to smooth low entropy 'baby universes' - like ours.959C6EF, 106948No reason for entropy reversalThere is no good reason to suppose that the entropy gradient will reverse and entropy decrease during the collapsing phase of the cycle. It would be extremely improbable for this to happen for just the reasons Boltzmann outlined in his statistical explanation of the Second Law.13EF597B, 107149Inflationary universeSome cosmologists claim that the inflationary cosmological theory explains the extremely smooth distribution of matter and energy - and hence low entropy - of the early universe. The extremely rapid expansion effectively smooths out any initial irregularities.959C6EF, 107150Presupposes lower entropyAs an explanation for the low initial entropy of the universe, inflationary cosmology does not work since for it to work the dark energy had to begin in an even lower entropy configuration. The puzzle is pushed back a step rather than resolved.13EF597B URL:
| Auszug - Nevertheless, we have a rough idea of how entropy evolves . In situations where gravity is negligible, such as a cup of coffee, a uniform distribution of particles has a high entropy. This condition is a state of equilibrium. Even when particles reshuffle themselves, they are already so thoroughly mixed that nothing much seems to happen macroscopically. But if gravity is important and the volume is fixed, a smooth distribution has relatively low entropy. In this case, the system is very far from equilibrium. Gravity causes particles to clump into stars and galaxies, and entropy increases noticeably— consistent with the second law. Indeed, if we want to maximize the entropy of a volume when gravity is active, we know what we will get: a black hole. |
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