我们会接受两种答案,对于中性原子。
And we'll absolutely accept both answers for a neutral atom.
因此,这就是中性原子,正确的电子排布。
So this would be for the actual filled, the completely neutral atom.
这些中性原子不带电,因此彼此间很难有相互作用。
These neutral atoms have no electric charge, and are therefore very difficult to get to interact with one another.
这条窄带上的中性原子的密度比相邻区域高出2到3倍。
The density of neutral atoms in the band is two to three times that in adjacent regions.
这意味着我们第一次捕获了反物质的中性原子。
What this means is that we've held on to neutral atoms of antimatter for the first time.
在附近澄清的原子核溶液中清楚地发现了中性原子。
Neutral atoms are found clearly in the clarified nuclear liquid nearby.
介绍了利用光场控制中性原子束制作微细图形的基本原理。
The basic principle of fabricating nanometer patterns by controlling neutral atoms is introduced in this paper.
到那时,宇宙已经充分冷却中性原子形成,最后让辐射出行畅通。
By then the universe had cooled down enough for neutral atoms to form, at last allowing radiation to travel unimpeded.
中性原子的导引和操控依赖于光场(或磁场)与原子之间的相互作用。
The guiding, control and manipulation of neutral atoms rely on the interactions of magnetic fields (or light fields) with neutral atoms.
通过观察这个汞原子钟是如何工作的将奠定目前所有中性原子晶格钟的基础。
A look at how the record-setting mercury clock would work reveals the basics of all contemporary neutral-atom lattice clocks.
那么,让我们来试一下另外一个例子,这次不是一个中性原子,而是一个离子,氰离子。
So, let's try another example here, and let's try a case now where instead of dealing with a neutral molecule we have an ion, so we have c n minus.
研究表明,存在环电流区方向和南北极区环电流粒子沉降带两个中性原子强度极大区域;
The simulation shows that there are two maximum ENA flux regions, i. e. , the ring current inner boundary region and particle precipitation region at the northern and southern poles.
太阳系的边缘由中性原子组成,它们被紧紧地压缩在一条狭窄的带状区域中,而不是均匀分布。
Neutral atoms, which are the only way to image the fringes of the solar system, are densely packed into a narrow ribbon rather than evenly distributed.
当一个薄膜变得太薄时,弥散的电荷云发生交叠并相互排斥,就好象电子云交叠时两个中性原子的行为一样。
If the film gets too thin, the diffuse charge clouds overlap and repel, just as two neutral atoms do when their electron clouds interact.
1924年爱因斯坦预言了当温度低于临界温度时服从玻色统计的理想中性原子气体的凝聚现象。
In 1924, Einstein predicted the phenomenon of condensation for an ideal gas of neutral atoms obeyed Bose-statistics under the temperature below critical value.
作为向偏转区域的等离子体引入的一部分,新颖的低温抽运设备选择性地从等离子体流中去除中性原子。
As part of plasma introduction to the deflection region a novel cryogenic pumping apparatus selectively removes neutral atoms from a plasma stream.
当离子在鞘层运动时,考虑离子与中性原子之间的电荷交换和弹性碰撞,以及离子被尘粒的库仑散射和收集作用。
The charge exchange and elastic collision between ion and neutral atoms and the collection and Coulomb scattering of ion on dust grains are considered.
但是为什么我们不想办法让超冷冻的中性原子与活动中的电子自然结合呢? 为什么我们要小题大做,研究一些超复杂的系统呢?
Why try to manipulate ultracold, neutral atoms into performing tasks electrons do naturally without much fuss?
质子数。,Z,proton,number。,原子核中的质子数,这是原子核的质子数,在中性原子中,等于,电子数。
Z Number of protons in the nucleus, this is number of protons in the nucleus, which in the neutral atom is equal to the number of electrons.
在中性原子中,电子数和原子核的正电荷数相等,但有些原子可以拥有比原子核的正电荷更多或更少的电子,从而原子就带上负的或正的电荷,这类带电的原子称为离子。
In a neutral atom, the protons in the nucleus are balanced by the electrons. An atom that has gained or lost electrons becomes negatively or positively charged and is called an ion.
因此看到ALPHA装置,并知道其中有稳定、中性的反物质原子,非常值得兴奋而又令人无法抵抗。
It is thus very rewarding, and a bit overwhelming, to look at the ALPHA device and know that it contains stable, neutral atoms of antimatter.
那么让我们来想一想,拿走一个,2,s,电子所消耗的能量,假设一个是从正一价硼离子中拿走1,另一个是从中性硼原子中拿走。
So let's think about the energy required now to remove a 2 s electron, let's say we're removing it from boron plus 1 versus neutral boron.
原子是电中性的。
IBEX还产生了第一张从外部空间进入太阳系的中性氢原子和氧原子的地图。
IBEX has also generated the first maps of neutral hydrogen and oxygen atoms entering the solar system from interstellar space.
而反氢原子由于呈电中性而留了下来。
The electrically neutral antihydrogen atoms are left behind.
所有的物质都是由分子构成的,而所有的分子内都有微小的原子、带正电荷的质子、中性的中子和带负电荷的电子。
All materials are made up of molecules, and all molecules have tiny atoms, with positively charged protons, neutral neutrons, and negatively charged electrons.
任何原子的质子数量与电子数量相等,因此是电中性的。
In any atom, the number of protons is equal to the number of electrons, and hence it is electrically neutral.
一个做这的方法就是在一个不均匀的磁场(由于反原子是中性的不能够使用电场)中限制反原子并且用激光识别它们。
One way to do this is to confine the anti-atoms in an inhomogenous magnetic field (one cannot use electric fields since the anti-atom is neutral) and interrogate them with lasers.
文章导出一种由两个中性的惰性气体原子之间的碰撞引起的电四极辐射几率。
We educe a probability of the electric quadrupole emission of a photon induced by collision between two neutral atoms of inert gases.
文章导出一种由两个中性的惰性气体原子之间的碰撞引起的电四极辐射几率。
We educe a probability of the electric quadrupole emission of a photon induced by collision between two neutral atoms of inert gases.
应用推荐