Heisenberg gave us the uncertainty principle, which we will visit later.
海森堡告诉我们不确定性原理,我们之后会看这个。
Physicist Werner Heisenberg, left, was challenged by the philosopher Karl Popper, right, to defend his paradoxical uncertainty principle.
物理学家维尔纳·海森堡(左)受到哲学家卡尔·波普尔(右)的挑战,针对其测不准原理的悖论。
The impact of sampling on the sample result, related to the Heisenberg Uncertainty principle.
抽样方式对抽样结果的影响,这与海森堡测不准原理有关。
Here's Bohr with Heisenberg, and we'll talk about Heisenberg's uncertainty principle.
这是波尔和海森堡,我们将讨论海森堡的不确定性原理。
As part of this effort, in the beginning of 1927 Heisenberg put forward the uncertainty principle, with which his name will forever be linked.
1927年伊始海森堡拿出了“测不准原理”,可看做是这些努力的一部分,而他的大名也将永远与这个原理连在一起。
This can be explained by the Heisenberg uncertainty principle, which limits how much information can be known about a particle.
海森堡的测不准原理可以解释此现象。该原理表明我们能获取的粒子信息总是有限的。
The Heisenberg uncertainty principle is a fundamental principle of nature, and applies to the calculations of other conjugate pairs of variables, such as energy and time.
海森堡测不准原理是一项基本自然法则,可运用到计算其它变量的共轭对上,比如能量和时间。
Since I have calculated the exact momentum of my car keys, the Heisenberg Uncertainty Principle indicates they could be anywhere in the universe.
海森堡测不准原理表明,当我准确地计算出汽车钥匙的动量时,这些钥匙可能处在宇宙中的任何一个地方。
It is the Heisenberg Uncertainty Principle working with Murphy's law.
这就是海森堡测不准原理和墨菲定律在起作用。
In postulating his Uncertainty Principle, Heisenberg realized that it was impossible to simultaneously know, with a high level of precision, two properties of a particle.
在对测不准原理做出假设时,海森堡发现无法同时精准地获知粒子的两种特性。
See the Heisenberg Uncertainty Principle discussion above.
请参阅前面关于海森堡测不准原理的讨论。
See the Heisenberg Uncertainty Principle discussion above.
请参阅前面关于海森堡测不准原理的讨论。
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