The visit was a triumph, and he said to a friend excitedly, "I was able to convince Hilbert of the general theory of relativity."
这次访问是一次胜利,他兴奋地对一个朋友说:“我说服了希尔伯特相信广义相对论。”
Therefore, Einstein's general theory of relativity.
爱因斯坦的相对论,一个地心引力的理论。
We owe the general theory of relativity to Einstein.
我们把相对论这个理论归功于爱因斯坦。
We owe the general theory of relativity to Einstein .
我们把相对论这个理论归功于爱因斯坦。
A full analysis requires the general theory of relativity.
全面的分析必须用广义相对论处理。
Einstein would tackle this later in his general theory of relativity.
爱因斯坦在他后来的广义相对论中去处理这个问题。
We owe the discovery of the general theory of relativity to Einstein.
我们将一般相对论的发现归功于爱因斯坦。
These waves were first predicted by Einstein's general theory of relativity in 1916.
人们最早是在1916年根据爱因斯坦创立的广义相对论预测出引力波的。
Gravitational waves were predicted by Einstein's general theory of relativity in 1916.
重力场波动是由爱因斯坦在1916年广义相对论中的预测出来。
It was on this sample basis that Einstein developed the so-called general theory of relativity.
就是基于这个例子,爱因斯坦形成了所谓的广义相对论。
In his general theory of relativity, published in 1916, Einstein showed that gravity too can slow time.
在他1916年发表的广义相对论中,爱因斯坦证明了重力可以减慢时间。
Einstein's general theory of relativity predicted a slightly different motion from Newton's theory.
爱因斯坦的广义相对论所预言的运动与牛顿理论稍有差异。
In 1973, he applied Einstein's general theory of relativity to the principles of 4 quantum mechanics.
1973年,他把爱因斯坦的广义相对论应用于量子力学原理。
The idea of antigravity was originally suggested by Einstein as a kind of add-on to his General Theory of Relativity.
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。
In his general theory of relativity, Einstein proposed that space and time are distorted by the presence of massive objects.
在整个相对论体系中,爱因斯坦都认为时空是受大质量物体的影响的。
This was, in fact, one of the most important clues from which the so-called general theory of relativity was developed.
事实上,这是由此而产生所谓广义相对论的非常重要的线索之一。
Einstein's General theory of Relativity, a key basis for the Big Bang theory, is silent on what happened before that event.
爱因斯坦的相对论作为宇宙大爆炸理论的关键基础,对大爆炸发生之前只字未提。
Einstein's General Theory of Relativity describes the properties of gravity and assumes that space is a smooth, continuous fabric.
爱因斯坦的广义相对论描述了引力的性质,并假设宇宙是平滑连续的。
The best theory available is Albert Einstein's general theory of relativity, which has passed all experimental tests hitherto.
提供最好的理论是爱因斯坦的广义相对论,已通过所有实验测试迄今。
The favoured explanation is the so-called cosmological constant-an as-yet-unobserved consequence of the general theory of relativity.
最受认可的解释是所谓的宇宙常数——一个广义相对论仍未被发现的结论。
The first key idea dates to 1916 when Einstein developed his General Theory of Relativity which he proposed as a new theory of gravity.
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。
This makes the equivalent principle as the one of basis hypothesis of the general theory of relativity to gain more extensive basis.
这使得作为广义相对论基本假设之一的等效原理得到更广泛的依据。
The general theory of relativity studies super dimensional space caused by spatial curves using the method of dimensional reduction.
广义相对论运用降维方法研究空间弯曲导致的超维空间。
Beyond Einstein consists of five proposed space missions designed to build upon and expand Albert Einstein's General Theory of Relativity.
“超越爱因斯坦”计划包括五个太空任务,用来验证和扩展爱因斯坦的广义相对论。
Beyond Einstein consists of five proposed space missions designed to build upon and expand Albert Einstein's General Theory of Relativity.
“超越爱因斯坦”计划包括五个太空任务,用来验证和扩展爱因斯坦的广义相对论。
应用推荐