The story of the Newton how to find out the theory of gravity is known to all.
牛顿是如何发现引力理论的故事是众所周知的。
His ground breaking research allowed Sir Isaac Newton to come up with the theory of gravity.
他的地壳断裂研究让牛顿得以提出重力学理论。
Ai Weiwei is related to some gallipots in Han Dynasty, and he broke them to prove the theory of gravity;
他和一些汉代的陶罐有关,他摔破它们为了证明‘重力原理’;
Using the theory of gravity field, this article mainly discussed the newest progress about the African Super Plume.
本文利用重力场理论对非洲超级地幔柱研究最新进展的结果进行了探讨。
Based on the theory of gravity prospecting and measuring accuracy of superconductive gravimeter, the migrating and accumulating of residual oil and gas are studied.
以重力勘探原理和超导重力仪观测精度为依据,对剩余油气的运移和聚集进行了研究。
An 18th-century account of how Newton developed the theory of gravity was posted to the Web Monday, making the fragile paper manuscript widely available to the public for the first time。
本周一,一份有关牛顿是如何发现万有引力定律的18世纪的手稿被传到网上,让不易保存的纸质手稿内容首次在网上与公众见面。
The effect is tiny but crucial, they added – and was predicted almost 100 years ago by Albert Einstein in his great theory of gravity, general relativity.
这影响虽然细微但非常关键,他们补充道 - 100年前,爱因斯坦在他伟大的重力理论-广义相对论中已经有了这样的预测。
Recently, physicists trying to meld gravity and quantum theory, and so explain the nature of space and time, have begun to revisit this old question.
最近,物理学家试图把引力和量子理论融为一体,由此来解释空间和时间的性质,已经开始重新研究这个老问题。
To be fair, however, m theory does take one important step toward unification by removing the infinities that plagued earlier theories of quantum gravity.
公平的说,M理论的确在大统一理论方面作出了重要的进步,那就是它没有早期量子引力论中灾难性的无穷量。
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.
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。
More importantly, confirming the holographic principle would be a big help to researchers trying to unite quantum mechanics and Einstein's theory of gravity.
更重要的是,对那些企图统一量子机制和爱因斯坦的引力理论的研究人员来说,全息原理的验证将提供非常有用的帮助。
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。
In fact, he has co-opted the mathematics of exotic phase transitions to build his theory of gravity.
实际上,他吸收描述奇异相变的数学来构建他的引力理论。
The findings of Gravity Probe B are the latest in a long list of these many vindications of Einstein's genius and reveal how his great theory touches our lives in unexpected ways.
重力探测器B的发现不过是众多证据中最新的一项,来证明爱因斯坦的天才和揭示他那伟大的理论是如何以意想不到的方式来触及我们的生活的。
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 phenomenon, predicted by Einstein's theory of general relativity, causes light to curve as it flies through space-time that has been dented by the gravity of large bodies of mass.
这一现象是指光线在时空中传播的过程中由于大质量物质的引力而发生弯曲,这也是爱因斯坦的广义相对论所预言的。
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.
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。
The confirmation also provides important guidance to those seeking the holy grail of physics - a quantum theory that includes gravity.
这个证明也为寻求物理学的圣杯——量子引力论——提供了重要的指导。
If a theory can be designed to withstand the incredible energies of the early universe as well as incorporate gravity, Jackson said, then a universal theory of physics could become a reality.
Jackson说,如果一个理论可以设计来经得起对早期宇宙的不可思议力量以及具体化的重力的推敲,那么一个物理学的宇宙理论就可能变为现实。
This theory views gravity not as a force but as a consequence of the curved geometry of space and time.
这个理论把重力不是看做一种力,而是空间-时间的几何弯曲的结果。
Three decades of effort have been expended on string theory, which includes gravity but at the expense of having the universe inelegantly sprout hidden dimensions.
而那个花了三十多年努力的“弦理论”,虽然把引力拉扯进来了,代价是让宇宙加几个不知哪冒出来的维度。
One theory is that they are youngsters, giving off heat as they collapse inward due to the pull of their own gravity, but nobody knows for sure.
有一个说法是,它们还处于幼年,由于自己的重力所拉,在衰竭的同时发出热量,但没有人能肯定这种说法。
It is the missing piece of the Standard Model, a theory which links all the particles and forces of nature bar gravity into a single mathematical framework.
它是连接所有粒子和除了引力外的自然力到一个简单数学框架理论的标准模型缺失的部分。
This could help solve the problem, and lead to a quantum theory of gravity.
这可能会帮助解决难题,带来引力的量子理论。
Originally, the theory was able to account for peculiarities in the orbit of Mercury and the bending of light by the Sun, both unexplained in Isaac Newton's theory of gravity.
最初,该理论能够用来说明水星独特运行轨道[译者注]和太阳光的弯曲,这两种情况是牛顿引力理论所无法解释的。
This observation leads Hawking to a remarkable prediction that will raise the pulsebeat of many readers. Here is his logic: M theory unifies gravity with quantum theory.
基于这个观测结果,霍金作出了一个让很多读者心跳加速的预言.他的逻辑是这样的:M理论统一了量子理论和引力理论;
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。
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。
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