Albert Einstein predicted this in 1905, when he introduced the concept of relative time as part of his special theory of relativity.
阿尔伯特·爱因斯坦在1905年预测到了这一点,当时他在狭义相对论中引入了相对时间的概念。
This led him to the special theory of relativity.
这个认识启发他创立了狭义相对论。
The special theory of relativity has raised a host of questions.
狭义相对论引出了许多问题。
Will Physicists Have to Rewrite The Special Theory of Relativity?
物理学家不得不修改狭义相对论了吗?
According to Albert Einstein's special theory of relativity, this is impossible.
根据爱因斯坦的狭义相对论,这当然是不可能的。
These examples illustrate an important principle in the special theory of relativity.
这些例子阐明了特殊的相对论中的一个重要的原理。
I deduce and analyze to the special theory of Relativity and discuss with everyone!
我对狭义相对论的推导与解析,和大家讨论!
That idea was dismissed more than 100 years ago with the creation of Einstein's special theory of relativity.
这一想法,早在100多年前就被爱因斯坦的狭义相对论理论所否定。
The paper introduces the one of non- Euclidean geometry - hyperbolic geometry into special theory of relativity.
本文试图将非欧几何之——双曲几何引入狭义相对论。
THE ONLY COMPUTER that Einstein used to work out his special theory of relativity in 1905 was the one inside his skull.
1905年,爱因斯坦研究狭义相对论时所用的唯一一部计算机,就是装在他脑袋里的那部。
Albert Einstein predicted this in 1905, when he introduced the concept of relative times as part of his Special Theory of Relativity.
阿尔伯特·爱因斯坦早在1905年就对此有所预言,当时他提出了相对时间的概念,并把它作为自己的“狭义相对论”的一部分。
On that day, photos taken of a solar eclipse provided convincing evidence that Einstein's Special Theory Of Relativity was workable.
那一天,通过日食照片证明了爱因斯坦广义相对论的正确性。
It is a strange consequence of the special theory of relativity, and applies to any events that happen that are separated by some distance.
这是奇特相对论的奇怪推论,对于不是发生在同一地方的任何事件都适用。
Twenty-one years after writing his Special Theory of Relativity, Albert Einstein invented a refrigerator that operated on alcohol gas.
在狭义相对论完成后的第二十一年,爱因斯坦发明了一个靠酒精气体运作的冰箱。
Specifically, Einstein's special theory of relativity predicts that time does not flow at a steady rate, and it can be affected by acceleration.
说得具体些,相对论预言,时间并不是按照一个固定频率流动的,它会受到加速度的影响。
Then Einstein, with his special theory of relativity, looked at a whole set of symmetries of Maxwell's equations, which are called special relativity.
接着爱因斯坦提出了狭义相对论—一种更简明的公式,它更体现了对称性。
According to Einstein's 1905 special theory of relativity, nothing is meant to be able to go faster than the speed of light — 186, 282 miles per second.
根据爱因斯坦1905年发表的相对论,任何物体的速度都不可能超越光速,即186282英里/秒。
Then, with Einstein's special theory of relativity, a still more concise formulation became possible, one that fully exhibited the symmetries of the system.
接着爱因斯坦提出了狭义相对论-一种更简明的公式,它更体现了对称性。
But it will not be bored to the study of philosophical discussion of the day special theory of relativity or the human ability to settle on Mars and be too worried.
但也不会无聊到整天研究哲学讨论狭义相对论或人类能否移居火星而过分担忧。
This paper studies electromagnetic's basic law through the special theory of relativity. It has inferred Biot-Savart Law by Coulomb Law and Lorent z Transformation.
应用狭义相对论研讨电磁场基本定律,由库仑定律和洛伦兹变换推导出毕奥—萨伐尔定律。
The conclusion supports the basic principle of the special theory of relativity, and regresses to the formula of classical theory naturally in low speed approximation.
其结论支持狭义相对论的基本原理,并且在低速近似下,自然回归到经典物理的公式。
When Albert Einstein proposed his special theory of relativity in1905, he rejected the19 th-century idea that light arises from vibrations of a hypothetical medium, the "ether."
爱因斯坦在1905年提出狭义相对论时,驳斥了一项19世纪的观点:光波是由一种假想介质“太”振动而产生的。
What he did not know-indeed, what no one knew until now-is that most cars would not work without the intervention of one of his most famous discoveries, the special theory of relativity.
而他不知道的——也是直到现在人们才知道的是——没有他的伟大发现之一,即狭义相对论,大多数汽车不可能发动起来。
From a teaching point of view, the author derives and proves the interrelation between electrostatic field and constant magnetic field in the light of the special theory of relativity.
本文从教学的角度,应用狭义相对论原理推早、证明静电场与恒稳磁场的相互联系,深刻揭示了静电场与恒稳磁场都是电磁场在不同参照系中的不同表现形式而己。
From a teaching point of view, the author derives and proves the interrelation between electrostatic field and constant magnetic field in the light of the special theory of relativity.
本文从教学的角度,应用狭义相对论原理推早、证明静电场与恒稳磁场的相互联系,深刻揭示了静电场与恒稳磁场都是电磁场在不同参照系中的不同表现形式而己。
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