μ

μμ

μ

1
Whenever a muon collides with a hydrogen molecule, it knocks the molecule apart and replaces the electron to create muonic hydrogen. 无论何时μ介子与氢分子碰撞,都将拆分氢分子并取代电子从而创造出μ介子氢。
2
"In two years we will do another experiment with the same equipment, but this time with muonic helium, " he added. “未来的两年我们会用相同的设备去做另一个(测量质子大小的)实验,但这次是用μ氢,”他补充道。
3
The surprising result was obtained by studying "muonic" hydrogen in which the electron is replaced by a much heavier muon. 这个惊人的结果是通过研究“μ介子”氢得到的,利用一个重的多的μ介子取代电子而得到μ介子氢。
4
Scientists from the LHC's Compact Muon Solenoid detector has now totted up all of the resulting particle interactions. 科学家们已经利用LHC的紧凑型μ介子螺线管探测器,总结出粒子相互作用的成果。
5
The muon's larger mass gives muonic hydrogen a smaller atomic size and allows a much larger interaction with the proton. μ介子的质量较大,使得μ氢具有较小的原子尺寸和与质子相互作用更强烈。
6
These log partial pressures all come from expanding out the chemical potential as mu naught plus RT log p. 这些log的分压都来自于,化学势对μ零加RTlogp的展开。
7
So you should be able to calculate what the friction coefficient is using the equation tangent alpha equals mu s. 你们则需要学会,计算摩擦系数,使用μ静=tanα这个公式。
8
But they could also be easily mistaken for the far more common muon. 但是它们也可能被错认为更常见的μ介子。
9
The straight line signature of cosmic ray muons disappears underground. 直线签字宇宙射线μ介子消失地下。
10
Well, in that case, mu A naught or sorry, A mu A in the liquid phase, mu A star is mu A naught in the gas phase. 好,在那种情况下,μA零,对不起,液,相中的μ,μA星是气相中的μA零。
11
A We're done because on that side here I have mu A, the chemical potential of A in the mixture, temperature T, pressure p total. 因为在这边我们有μ,混合态时A的化学势,温度T,压强p总。
12
IceCube can also detect more local neutrinos and muons that originate from cosmic rays striking Earth's atmosphere. 冰立方也可以用来探测更多的源于宇宙线与地球大气层作用而产生的中微子和μ子。
13
There are three types of neutrinos: electron neutrinos, muon neutrinos and tau neutrinos. 中微子有三种类型:电子中微子,μ子中微子和τ中微子。
14
And that's equal to mu A star A* of the pure liquid at point beta. 它等于纯液体中,β点的μ
15
At our temperature and pressure, it's given by mu naught in the gas phase. 在我们的温度和压强下,是气相中的μ零。
16
The static friction at point Q-- we'll simply call that mu. 点Q的静摩擦-,我们称之为μ
17
The most familiar lepton is the humble electron, though other, more exotic particles such as muons and taus also fall in this category. 尽管很多属于轻子范畴的粒子名字古怪,如μ子和τ子等,但其中最为人们所熟悉的轻子还是电子。
18
A I've got mu A pure temperature T pressure p total, RTlogx plus a term. Plus RT log xA. 我们得到了纯态时温度T压强p总时的μ,加上另外一项,加上。
19
The theory is that when a muon encounters a gas molecule, it can knock off an electron, leaving a positively charged ion in its wake. 当μ介子遇到气体原子时,将失去一个电子,从而成为一个正离子。
20
Well, the initial MiniBooNe experimental run used a muon neutrino beam, whereas the original LSND experiment used a muon antineutrino beam; 嗯,这是因为前一次MiniBooNE用的是μ中微子束,而原始的LSND实验用的是反μ中微子束;

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