The outcome of attempts to resolve the problems: general relativity and quantum mechanics, two pillars of modern science.
“科学家们对这个世界怎样运行,有一个标准的模型,但当时有一些数据不符合”,他说。试图解决的问题的结果在于:广义相对论和量子力学,现代科学的两大支柱。
He rewrote the equations of general relativity to make them compatible with quantum mechanics.
他重写了广义相对论的方程,使它们能与量子力学兼容。
General relativity deals with gravity and time and space; quantum mechanics with the microscopic workings of matter.
广义相对论,描述引力与时空的关系;量子力学,研究微观粒子运动规律。
So their discovery would provide a key piece of experimental evidence for this contender for a Grand Unified Theory meshing general relativity with quantum mechanics.
所以他们的发现将为这些(对抗)结合了相对论和量子力学的大统一理论的竞争者们提供一份关键的实验证据。
But when you zoom in to very small distances, general relativity cannot ignore quantum fluctuations of space-time.
但当你缩小到小尺度时,广义相对论不能忽视时空的量子涨落。
ONE of the most elusive goals in modern physics has turned out to be the creation of a grand unified theory combining general relativity and quantum mechanics, the two pillars of 20th-century physics.
现代物理学中最大的难题之一便是创立一个能够包容广义相对论和量子力学,20世纪物理学两大支柱的终极理论。
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。
Eventually they're aiming to fulfill Einstein's unrealized goal of unifying general relativity with quantum theory.
最终他们希望能够完成爱因斯坦尚未实现的目标——将广义相对论与量子理论统一起来。
It would help to heal the breach between the two great theories of physics-quantum mechanics and general relativity.
它有助于弥合两大物理理论——量子力学和广义相对论——之间的鸿沟。
These strings produce all known forces and particles in the universe, thus reconciling Einstein s theory of general relativity (the large) with quantum mechanics (the small).
这些“弦”制造了所有已知作用力和宇宙中的粒子,从而达到与爱因斯坦相对论(宏观)与量子力学(微观)理论的协调。
Developed by Olaf Dreyer of the Massachusetts Institute of Technology, internal relativity sets out to explain how general relativity could arise in a quantum world.
他来自于麻省理工学院(MassachusettsInstituteofTechnology)。内部相对论试图解释广义相对论如何立足于量子世界。
1970 - Discovers that by using quantum theory and general relativity he is able to show that black holes can emit radiation.
1970年—运用量子理论和广义相对论证明了黑洞可以放出辐射。
How Quantum Mechanics And General Relativity Play a part?
量子力学和广义相对论的影响。
Let's look back into the two important theory in modern science: general theory of relativity of Einstein and quantum mechanic of Heisenberg.
让我们再看看现代科学的两大理论:爱因斯坦的广义相对论和海森堡的量子力学。
As currently understood, general relativity and quantum mechanics are incompatible.
就现在的理解,广义相对论和量子力学是不相容的。
Besides special and general relativity, his work helped to launch quantum mechanics and modern statistical mechanics.
除了狭义和广义的相对论外,他的研究还促成了量子力学和现代统计力学的出现。
Steinhardt's scenario makes use of string theory, another attempt to reconcile General Relativity with quantum physics.
斯顿哈德的假设引用了弦理论,这种理论也试图在相对论和量子物理学之间找到折衷点。
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。
It is arguably the quantum theory of general relativity, because it makes no extra assumptions beyond the basic principles of quantum theory and relativity theory.
它可说是广义相对论的量子理论,因为它在量子理论和相对论的基本原理之外,没有任何额外的假设。
If correct it may help to address the incompatibility between quantum mechanics used to describe the universe of the very small and general relativity good at describing the universe on a large scale.
如果假设正确,便可以解释量子力学和广义相对论的不兼容原因。量子力学通常描述宇宙的小规模,而广义相对论擅长描述宇宙的大规模。
Black hole, as a hot topic in quantum gravity and quantum cosmology, is recognized as a bridge that connects quantum mechanics and general relativity.
黑洞作为量子引力和宇宙学一个研究的热点,它是联系广义相对论与量子力学的纽带。
In some cases, both general relativity and quantum mechanics converge.
在某些情形里,广义相对论和量子力学集中于一点。
The remarkable about-face is the result of Hawking's attempts to combine quantum theory with general relativity in a powerful new theory of quantum gravity.
惊人的后悔是霍金的尝试的结果在一个量重力的强有力的新理论里把广义相对论与量子理论结合起来。
This issue will concentrate on his some physical propositions at the intercross field of quantum physics and general relativity such as black holes, geons and quantum fo…
本文着重介绍他在量子力学和广义相对论交叉处的一些物理命题,如黑洞、真子、量子泡沫等。
This issue will concentrate on his some physical propositions at the intercross field of quantum physics and general relativity such as black holes, geons an…
本文着重介绍他在量子力学和广义相对论交叉处的一些物理命题,如黑洞、真子、量子泡沫等。
This issue will concentrate on his some physical propositions at the intercross field of quantum physics and general relativity such as black holes, geons an…
本文着重介绍他在量子力学和广义相对论交叉处的一些物理命题,如黑洞、真子、量子泡沫等。
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