general relativity
美 
英
- n.广义相对论
- 网络一般相对论;广义相义论;爱因斯坦的广义相对论
英汉解释
例句
Since the establishment of general relativity, quite a number of observations have supported this theory of gravitation.
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。
Gravitational-wave is one of the important deduction of the general relativity. Gravitational-wave has never been observed directly.
引力波是广义相对论的重要推论之一,迄今为止尚未被直接探测到。
Yet they are such a linchpin of general relativity that the theory would crumble like a house of cards in a hurricane if they did not exist.
但是这是广义相对论的关键,如果它不存在的话,广义相对论将像暴风中的纸房子一样崩溃。
The amount of redshift they found that appeared to be caused by gravity agreed exactly with the predictions of general relativity.
他们发现的红移量,似乎是由引力所引起,其数量恰好与广义相对论的预测相符合。
This hypothesis formed a cornerstone of the theory of general relativity that evolved over the next eight years.
这个假设成为随后八年间形成的广义相对论的一个基石。
It would have been more exciting if they saw deviations [from general relativity], but their results are important as well.
要是他们能发现有违背的广义相对论的地方,那将会更加令人兴奋。不过他们的结果还是非常重要的。
Using general relativity, which treats gravity as a distortion of space-time, physicists were able to describe black holes in gory detail.
在广义相对论里面,物理学家把重力当做是时空中的一种扭曲,从而详尽的解释了黑洞的细节。
Of general relativity, the great achievement of Einstein's life, Overbye has much to say.
奥弗拜不得不说,相对论是爱因斯坦最伟大的成果。
When he put together the equations of general relativity back in 1916, Einstein applied them to the universe as a whole.
1916年他得到了广义相对论方程,并将宇宙看做整体进行计算。
Then the theoretical foundation of time measurement changes from Newtonian theory to the General Relativity Theory (GRT).
时间计量的理论基础也由经典的牛顿理论发展为广义相对论。
General relativity changed the opinion of space and time of Newtonian mechanics, but failed to complete the physical revolution.
广义相对论变更了牛顿力学的空间、时间观念,但相对论没有完成物理学的革命。
The delay in radar signals mentioned above has been referred to as a fourth test of general relativity.
上面提到的雷达讯号的延迟被称为广义相对论的第四个检验。
For physics as a whole to be logically consistent, there has to be a theory that somehow unites quantum mechanics and general relativity.
要让物理整体的逻辑一致,就必须要有个理论,以某种方式将量子力学和广义相对论统合起来。
White holes have never been observed, though general relativity predicts they could exist in principle.
人们从未观测到过白洞,然而广义相对论认为白洞原则上是存在的。
Now, we think the general relativity is not the ultimate truth.
现在,我们相信广义相对论仍不是终极真理。
In his theory of general relativity, Einstein realized that space and time can stretch and warp in ways that change the trajectory of light.
爱因斯坦在他的广义相对论中认识到,可以以改变光轨迹的方式对时间和空间进行拉伸和弯曲。
According to the "general relativity" predict "graviton" and "gravitational waves" does not exist.
由“广义相对论”所预言的“引力子”和“引力波”不存在。
Hawking went on to demonstrate-again if general relativity is correct-that the entire universe must have sprung from a singularity.
霍金继续论证——再次假定广义相对论是正确的——整个宇宙必定是从一个奇点爆炸而形成的。
Albert Einstein wins again. A new study has confirmed another prediction of his theory of general relativity.
一项新的研究再次验证爱因斯坦的另一个广义相对论的预言。
It is unknown whether (Lorentzian) wormholes are possible or not within the framework of general relativity.
是否(洛伦兹)虫孔是可能在或不在广义相对论框架里面,这是未知的。
Future tests of general relativity by radio observations of this system will supersede the best Solar System tests available.
未来通过对该系统辐射的观测来测试相对论将取代最好的太阳系测试。
The Kerr solution is one of the few explicitly known solutions to general relativity that have a direct physical meaning.
克尔解是广义相对论少数几个清晰明确的解之一,拥有直接的物理学意义。
(PhysOrg. com) -- Wormholes are one of the stranger objects that arise in general relativity.
据国外媒体报道,“虫洞”是广义相对论中出现的概念,是指宇宙中一种奇特的天体。
Yet no one had managed to detect a proof of this prediction of general relativity on the cosmic scale, until now.
然而在我们以前,还没有人去努力检验过在宇宙尺度里广义相对论的预测。
Any scientist would say that evolution is a theory, just as gravity, general relativity, the Big Bang, and so forth are theories.
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。
No wonder nobody noticed: At the time of Einstein's death in 1955, scientists still had almost no evidence of general relativity in action.
没人注意到这一点并不足为奇:爱因斯坦1955年去世时,科学家仍没有任何有关广义相对论发挥作用的证据。
A new study has confirmed another prediction of his theory of general relativity.
一项新的研究已经证实了他的广义相对论理论的另一个预言。
Einstein Einstein: A theoretical physicist who developed the theory of general relativity, effecting a revolution in physics.
爱因斯坦:理论物理学家,广义相对论开创者,该理论在物理学范围内引起了一场革命。
important test is whether one can derive classical general relativity as an approximation to loop quantum gravity.
一个重要的检验是,我们能否从环圈量子重力导出一个近似理论,而它就是古典广义相对论?
According to classical general relativity, neither matter nor information can flow from the interior of a black hole to an outside observer.
按照古典广义相对论,既不是物质也不是信息能从黑洞内部流动到一位外面的观察者那里。
In general relativity, black holes are a consequence of space and time being part of the same fabric.
在广义相对论中,黑洞是空间和时间作为同一结构不同部分的结果。
the dominant force at cosmological distances is gravity, and general relativity is currently the most accurate theory of gravitation.
的主导力量,在宇宙的距离是重力,广义相对论是目前最精确的理论,引力。
Today general relativity is so well understood that it is used to weigh galaxies and locate distant planets by the way they bend light.
今天的广义相对论非常容易理解,甚至于还被根据星系和遥远星系使光弯曲的现象,用来给星系测重量,锁定遥远行星的位置。
General relativity views gravity not as a force but as a consequence of the curved geometry of space and time.
广义相对论并不将引力视为“力”,而是将它看作是时空弯曲的结果。
In general relativity , the effects of gravitation are ascribed to spacetime curvature instead of a force.
广义相对论,引力的影响,是归因于时空曲率而不是武力。
They've been puzzled for years by a curious incompatibility between general relativity and quantum mechanics.
多年来,广义相对论和量子力学之间一种奇怪的不相容使他们困惑不解。
"General relativity touches our lives in many unexpected ways, " added physicist Dr Charles Wang, of Aberdeen University.
“广义相对论以很多想不到的方式影响我们的生活,”阿伯丁大学物理学博士CharlesWang说。
General relativity is a beautiful theory, and many of its predictions have been tested to great accuracy.
广义相对论是个漂亮的理论,它的很多预测已经通过高度精密的检验。
String theory elegantly reconciles the otherwise competing rules of quantum mechanics and general relativity.
弦论非常优美地使量子力学与广义相对论中相互矛盾的理论一致起来。
We established an airplane boarding model with differential geometry, which is used to lime the space-time of general relativity.
利用微分几何学的知识建立了一种登机模型,模型主要研究一般关系的时空。
