大多数天体物理学家接受这个情形,自从依照广义相对论,充份密度物质任何集中一定必然坍缩为一个黑洞。
Most astrophysicists accept that this is the case, since according to general relativity, any concentration of matter of sufficient density must necessarily collapse into a black hole.
特别是狭义相对论的错误,错的无边无际,谁也无法挽救,即使把天体物理现象的观测戴上广义相对论的头衔,也无济于事。
Especially the error of special relativity, which is horribly wrong, no one can save, even put the observation of astrophysics phenomenon on general relativity's rank, it is also useless.
透过研究黑洞对附近环境的物理影响,为同学提供了解广义相对论、天体物理学和基础宇宙学的基础。
Study of physical effects in the vicinity of a black hole as a basis for understanding general relativity, astrophysics, and elements of cosmology.
根据爱因斯坦的“广义相对论”,像太阳那样的巨大天体的存在势必使时空结构变形。
According to Einstein's general theory, the presence of a massive body like the Sun distorts the geometry of space and time.
天体测量学许多问题中的相对论效应已被许多人讨论过并在资料处理中应用。
The effects of relativity on a lot of subjects in astrometry have been discussed and applied in reduction of data.
至2000年的141年间,地面和空间实验、天体和宇宙观测检验相对论性引力理论的精密度均改进了三个数量级。
During the 141 years to 2000, the precision of laboratory and space experiments, and astrophysical and cosmological observations on relativistic gravity have improved by 3 orders of magnitude.
至2000年的141年间,地面和空间实验、天体和宇宙观测检验相对论性引力理论的精密度均改进了三个数量级。
During the 141 years to 2000, the precision of laboratory and space experiments, and astrophysical and cosmological observations on relativistic gravity have improved by 3 orders of magnitude.
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