Finding gan electron in a region of space.
在一个空间的范围找到一个电子。 。
Let's imagine this is the electron in its orbit.
想象一下,电子在它的轨道中。
And I cannot have an unpaired electron in the same orbital.
我不可能在同一个轨道,得到不成对电子。
An electron in the innermost orbit has the least energy.
最里面的轨道上的电子能量最低。
What is the binding energy of the ground state electron in hydrogen?
氢在基态的情况下,它的电子结合能是多少?
It makes no sense at all to speak of a stationary electron in an atom.
谁要说原子内有一个静止的电子,那是毫无意义的。
That is the electron in its lowest orbit, to the nucleus of atomic hydrogen.
那就是氢原子原子核外电子,最低轨道到情况。
Well, suppose I want to look at something like an electron in orbit here.
假如我想看到,轨道上像电子一样的东西。
But in fact, an electron in the conduction band can be in one of two states.
但实际上,电子在这种传导带中存在两种形态。
In order to have an electron in a stationary orbit this implies standing wave.
为了在静止的轨道中拥有电子,驻波是不可少的。
In this thesis, we discuss the interaction between laser and electron in detail.
在本文中,我们详细介绍了强激光与电子的相互作用理论。
This Paper studies interface effect of avalanche hot electron in MOS structures.
本文研究了电子束蒸铝MOS结构的热电子雪崩注入的界面效应。
S — we don't have to hybridize it, it already has only one unpaired electron in a 1 s orbital.
s -我们不用杂化它,它已经有而且仅有一个未配对电子在s轨道里。
And again, you'll notice that our energy is absolutely the same for an electron in that 2px and 2s orbital.
同样,你们会发现2px轨道的能量,和2s轨道是一样的。
It tells you that any attempt to try to specify, to localize the position of an electron in such a system is futile.
这说明你试着任何尝试关于,使一个电子在这样一个系统中,确定其明确的位置是没有意义的。
But it is interesting. Let's just, for an order of magnitude say what happens for ground state electron in atomic hydrogen?
但行星模型其实挺有趣的,按照重要的先后顺序,我们来猜想一下,氢原子中的基态电子会发生些什么?
We talked about that quite in depth, but there are some differences now that we have more than one electron in the atom.
但是这里有一些不同的是,现在我们考虑的原子中,有多于一个,的电子。
In addition to this, discussion on symmetry also extends to the moving electron in any three-dimensional magnetic fields.
此外,对具有确定宇称的三维磁场中运动电子的对称性也作了讨论。
The numerical results show that the interactions of the interface phonon and an electron in quantum well are not ignorable.
数值计算结果表明,量子阱中界面声子与电子的相互作用是不可忽略的。
Moreover, in order to measure the positions of both positron and electron in the IP at the same time, two special BPMs with 8-bu.
此外,为了同时测量对撞点处正、负电子束的位置,两套带有8电极的特殊束流位置探测器(BPM)将安装在对撞点两侧。
The spontaneous emission spectrum and higher harmonic gain of a relativistic electron in a novel electrostatic wiggler are discussed.
讨论了一种静电摇摆器中电子的自发辐射谱和高次谐波的增益,其形式与平面磁摇摆器中的类似。
Elements in the first column all have one electron in their outermost shell. Those in the second column have two outer electrons, and so on.
第一列元素最外电子层内均有一个电子,第二列元素则含有两个电子,依此类推。
And the third fact that we need to keep in mind is that spins remain parallel prior to adding a second electron in any of the orbitals.
第三个事实是我们需要记住在,每个轨道加入第二个电子之前,自旋保持平行。
So, why don't you take a look at this and tell me which are possible for a 2 s electron in a lithium atom where z 3 is going to be equal to three?
你们为什么不看一下这个然后告诉我对,于一个锂原子中的2s电子哪些是可能,的?它的有效电荷量,可能等于?
The recoil angle of electron in Compton scattering is incorrect in some text books, and the right sketching of Compton scattering is presented.
指出了某些教材中康普顿散射示意图画法的不妥之处,并严格推导了康普顿散射中反冲电子的散射角,给出了正确的康普顿散射示意图。
The quantization of the system of one electron in four sites and the vibration of H2O with Fermi resonance were studied by the Lyapunov analysis.
运用李雅普·诺夫指数对H2O振动体系及多个格点中单电子体系的量子化问题进行研究。
The classical behavior of a free electron in a strong laser plasma is discussed by solving the generally-covariant equation of motion for an electron.
通过严格求解广义协变的电子运动方程,讨论了强激光等离子体中自由电子的经典行为。
There are basically three processes for interaction between a photon and an electron in a solid: absorption, spontaneous emission, and stimulated emission.
光和固体中电子的相互作用基本上有三个过程;吸收,自发辐射和受激辐射。
A quantized elliptical orbit of electron in hydrogen_like atom is concisely derived from Binet equation with the aid of Bohr_Sommerfeld s quantized condition.
从比耐公式出发,结合玻尔———索末菲量子化条件,对类氢原子电子的量子化椭圆轨道,给出了一个简化的推导,并在此基础上,对轨道的稳定性进行进一步的讨论。
Photonic Crystals has similar properties with electron in many respects. So we can research Photonic Crystals by referring to some electronic research methods.
光子晶体的性质在很多方面与电子类似,借鉴于电子的一些研究方法,能够为我们解决光子晶体问题提供路径。
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