如果全球定位系统不能修正相对论效应——爱因斯坦最著名的发现相对论的产物,这些信号就会积累大量的误差,其数据就会变得毫无意义。
If they could not correct for the effects of relativity, Einstein's most famous discovery, GPS signals would accumulate so many errors that their data would be meaningless.
“这是爱因斯坦光电效应的一个很好的延伸,”Richter说。
"This is a nice extension of Einstein's photoelectric effect," Richter said.
引力透镜效应(注2)的产生是因为引力会改变光路,正如爱因斯坦提出的那样。
Gravitational lensing occurs because gravity, as Einstein showed, bends light.
这种差别最终被爱因斯坦以太阳引力相对效应解释清楚了,因此对“火神星”的搜索也逐渐淡失。
That discrepancy was eventually explained by Einstein as a relativistic effect of the sun's gravity, and the search for Vulcan petered out.
实际上,根据爱因斯坦假设的时间隧道效应,光速在所有观察者眼中是不变的,无论他们移动的多快。
At the root of this strange time warping effect lies Einstein's postulate that the speed of light should be the same for all observers, no matter how fast they are moving.
阿尔伯特·爱因斯坦因为发现光电效应的原理而获奖。
Albert Einstein won for discovering the law of the photo-electric effect.
还有其他峰如玻色-爱因斯坦凝聚,分数霍尔效应,而更多。
There are other peaks such as Bose-Einstein condensation, fractional Hall effect, and more.
而这正是爱因斯坦所预言的加速度产生的效应。
And this is exactly what Einstein predicted would be the effect of acceleration.
爱因斯坦提到的另一个现象是所谓的光电效应。
Another phenomenon mentioned by Einstein was the so - called photoelectric effect.
跃迁的玻尔条件和光电效应的爱因斯坦定律都是微扰近似的结果,在强激光引起的跃迁中不成立。
The Bohr condition for quantum transitions and the Einstein law for photo-electric effects are approximate results of perturbation. They are violated in the transitions induced by intense lasers.
思考如何解释光电效应从而引领爱因斯坦因获得了诺贝尔物理学奖,相对论的产生也与思考如何解释光电效应有关。
Thinking about how to explain the photoelectric effect is what led Albert Einstein to the Nobel prize for physics, and to the theory of relativity.
我认为爱因斯坦的相对论需要修改,加上一条特例,来解释人们沉溺在爱河中的奇特效应。
I realized that Einstein's law of relativity would have to be amended to include a special set of rules, those to explain the peculiar effects of infatuation.
爱因斯坦光电效应方程可以完满地解释光电效应的实验规律。
The equation of Einstein photoemission can fully explain experimental rule of photoemission.
光电效应是赫兹在1887年发现的,爱因斯坦对它作出了解释,为此,爱因斯坦获得了诺贝尔奖。
The effect was discovered in 1887 by Heinrich Hertz and explained by Albert Einstein in work for which he received the Nobel Prize.
本文通过普朗克常数测定仪测出三组数据,然后用统计学的一些基本知识验证爱因斯坦光电效应方程。
In the paper, three sets of data are acquired through the Planck's constant measuring instrument and some of the knowledge of statistics is employed to verify Einstein's photoelectric effect equation.
爱因斯坦也解释了光电效应里一个令人困扰的现象。
Einstein also explained a baffling feature of the photoelectric effect.
所以oseen力推以“发现光电子效应”的名义给爱因斯坦颁发诺贝尔奖。
So Oseen pushed hard to give the prize to Einstein for "the discovery of the law of the photoelectric effect."
综述了基于低温玻色—爱因斯坦凝聚状态新物理效应的量子陀螺和超流体陀螺的研究动态。
This paper presents the recent research status of quantum gyroscope and superfluid gyroscope based on the new physical effects of cryogenic Bose-Einstein condensation.
本文应用平均场近似的方法,研究了弱耦合的三势阱中玻色-爱因斯坦凝聚的开关效应。
We propose a scheme utilizing mean-field approach to exhibits switch effect in a symmetrical Bose-Einstein condensates triple-well potential.
然而,克劳斯说:“爱因斯坦只考虑到了恒星的透镜效应,没有想到星系。他的确不那么精通天文学。”
But Dr. Krauss said: "He only thought of lensing by stars and didn't think of galaxies. He really wasn't much of an astronomer. ""
然而,克劳斯说:“爱因斯坦只考虑到了恒星的透镜效应,没有想到星系。他的确不那么精通天文学。”
But Dr. Krauss said: "He only thought of lensing by stars and didn't think of galaxies. He really wasn't much of an astronomer. ""
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