奇怪的是,爱因斯坦的相对论的确曾经预言过用这种方法可以造出黑洞,虽然没有一个人提到过风行的引力理论。
Curiously though nobody had ever shown that the prevailing theory of gravity Einstein's theory of general relativity actually predicts that a black hole can be made this way.
结合相对论和量子理论,提出一种量子引力的理论,它的动机之一是出于美学上的对统一各种自然作用力的渴望。
Part of the motivation behind the quest to marry relativity and quantum theory - to produce a theory of quantum gravity - is an aesthetic desire to unite all the forces of nature.
任何科学家都可以认为进化论是一个正在传播的理论,就像万有引力学说,广义相对论,大爆炸论一样。
Any scientist would say that evolution is a theory, just as gravity, general relativity, the Big Bang, and so forth are theories.
1916年,爱因斯坦在他的引力新理论 -- 广义相对论中提出了这一关键的想法。
The first key idea dates to 1916 when Einstein developed his General Theory of Relativity which he proposed as a new theory of gravity.
凸显量子理论和相对论冲突的地方之一是引力常数g,这个量描述引力的强度。
One area where the conflict between quantum theory and relativity comes to the fore is in the gravitational constant, g, the quantity that describes the strength of gravity.
可是,另外还有一个可能取代广义相对论的理论称为张量-矢量-标量引力(TeVeS)了,它与我们的新发现有冲突。
However, another alternative theory, called tensor-vector-scalar gravity (TeVeS), does conflict with the new findings.
如果情况确是这样,那就意味着我们可能最终有办法去试验某种理论,它能把相对论与量子理论结合起来成为引力量子理论。
If so, that means we might finally have a way to test theories that aim to combine relativity and quantum theory into a quantum theory of gravity.
摘要在爱因斯坦的相对论基础之上,借助牛顿绝对时空的观点,对牛顿万有引力定律进行了理论推导。
The equation of the law of universal gravitation is deduced on the basis of einstein's relativity with newton's viewpoint of absolute space time.
反引力的概念最早是由爱因斯坦作为一种附加理论在相对论中提出来的。
The idea of antigravity was originally suggested by Einstein as a kind of add-on to his General Theory of Relativity.
爱因斯坦的相对论,一个地心引力的理论。
爱因斯坦的相对论,一个地心引力的理论。
引力动态理论,作为一种与爱因斯坦广义相对论相反的理论最先的相对论是来自r。
As an alternative to Einstein's general relativity the original relativity theory came from r.
这一发现证实了许多奇怪的一些最古怪的预言-像黑洞和宇宙膨胀-阿尔伯特·爱因斯坦的引力理论,广义相对论。
The finding confirms some of the weirdest of the many strange predictions - like black holes and the expanding universe - of Albert Einstein's theory of gravity, general relativity.
具体说来,问题出在爱因斯坦的引力理论——在他的广义相对论中,时间和空间是浑然一体的。
More specifically, the problem is the way that time is tied up with space in Einstein's theory of gravity: general relativity.
广义相对论;量子引力;弦论和M -理论。
General Relativity; Quantum Gravity; String Theory and M-Theory.
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.
如我们在下一节讨论,在本世纪初, 这迫使更换牛顿与爱因斯坦的理论万有引力定律的广义相对论。
The second Albert Einstein showed that Newton's Law of Gravitation was 1879-1955 also only approximately correct, breaking down in the presence of very strong gravitational fields.
自从爱因斯坦创立广义相对论以来,大量的天文观测证实了这一 引力理论的正确性。
Since the establishment of general relativity, quite a number of observations have supported this theory of gravitation.
奇怪的是,爱因斯坦的相对论的确曾经预言过用这种方法可以造出黑洞,虽然没有一个人提到过风行的引力理论。
Curiously, though, nobody had ever shown that the prevailing theory of gravity, Einstein's theory of general relativity, actually predicts that a black hole can be made this way.
奇怪的是,爱因斯坦的相对论的确曾经预言过用这种方法可以造出黑洞,虽然没有一个人提到过风行的引力理论。
Curiously, though, nobody had ever shown that the prevailing theory of gravity, Einstein's theory of general relativity, actually predicts that a black hole can be made this way.
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