由此推断宇宙监督假设就是黑洞热力学第三定律。
Form here we infer that the cosmic censorship hypothesis is just the third law of thermodynamics of black hole.
尤其,黑洞热力学的学科,保持一个研究的有效面积,被彻底对待。
In particular, the subject of black hole thermodynamics, which remains an active area of research, is treated in depth.
因此,对黑洞热力学的一些基本性质的深入研究具有重要的理论意义。
Therefore, it has important theoretical significances to study some basic properties for black hole thermodynamics.
另外众所周知,在引力理论中一个还没有解决的重要问题是黑洞热力学特性的微观起源。
It is by now well known that one of the outstandingly unsolved questions in gravitational theory is the microscopic origin of black-hole thermodynamic entropy.
经典地,一个靠材料进入黑洞从我们的宇宙消失而且造成宇宙总熵减少就违反了热力学第二定律。
Classically, one could violate the second law of thermodynamics by material entering a black hole disappearing from our universe and resulting in a decrease of the total entropy of the universe.
最后,讨论了黑洞的热力学第三定律。
Lastly, the third law of thermodynamics of black-hole has been completely discussed.
然后利用热力学第一定律,可以得出结论,黑洞的温度并没有被修正。
Then making use of the first law of thermodynamics, we conclude that the Hawking temperature is invariant.
然后利用热力学第一定律,可以得出结论,黑洞的温度并没有被修正。
Then making use of the first law of thermodynamics, we conclude that the Hawking temperature is invariant.
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