The energy for single hydrogen atom is negative 1312 kilojoules per mole.
单个氢原子的能量是-1312 千焦每摩尔。
So today, we're going to start talking about the hydrogen atom.
今天我们将谈到氢原子。
We will consider this Zeeman effect for the hydrogen atom.
我们将对氢原子考虑此塞曼效应。
All right. So today we're going to finish up our discussion of the hydrogen atom.
好,今天我们要结束,关于氢原子问题的讨论。
The hydrogen atom is lighter and simpler than the atoms of any other elements.
氢原子较之其他任何元素的原子的重量都轻,结构都简单。
If one hydroxyl steals other's hydrogen atom, it will turn into water molecule.
如果其中一个羟基抢断对方的氢原子,它会变成水分子。
Zap a hydrogen atom and it will resonate at a particular rate: 1420 megahertz (MHz).
轰击氢原子可以与某一特定的频率产生共鸣: 1420兆赫。
The univalent organic radical C6H5, derived from benzene by removal of one hydrogen atom.
苯基单价有机基因,c6h5,通过去掉一个氢原子而从苯中提炼出来。
So if I tell you that the energy for single hydrogen atom is negative 13 12 kilojoules per mole.
如果我告诉大家单个氢原子的能量,是负的,1312,千焦每摩尔。
In cases you're extremely familiar with, if it were the hydrogen atom, it would be down in the 1s orbital.
对于你们所熟悉,的氢原子,就是1s轨道能级。
In a semiheavy water molecule, one hydrogen atom (H) is replaced with a heftier version called deuterium (D).
在半重水的水分子中,一个氢原子(H)被一个称之为氘(D)的氢原子的同位素所取代。
This states that a hydrogen atom can collapse into a previously unknown form called a hydrino, producing energy.
这种理论表明氢原子可以塌陷到一种以前从未被发现的次氢形态,并释放出能量。
And what is discussed is that for a 1 s hydrogen atom, that falls at an a nought distance away from the nucleus.
我们讨论了对于氢原子1s轨道,它的最可能半径在距离原子核a 0处。
The frequency needed to do this can then be compared with that which flips the spin of an ordinary hydrogen atom.
这些测试的频率将会与翻转普通氢原子的频率作对比。
But, in fact, we can also talk about the ionization energy of different states of the hydrogen atom or of any atom.
但实际上我们也可以讨论氢原子,或者其它任何原子的其它能级的电离能。
That energy will be absorbed by the hydrogen atom, n=1 the electron will rise from n equals one n=2 to n equals two.
这能量将会被氢原子吸收,这个电子会从,上升到。
Because what it tells is that we can figure out exactly what the radius of an electron and a nucleus are in a hydrogen atom.
我们可以,准确的算出,氢原子中,电子。
Most important for applications (e. g., the hydrogen atom) are spherically symmetric potentials, which we treat in Sect. 4.6.
大部分重要应用对象(例如氢原子)是球对称势,这一部见4.6节。
Not as much as the hydrogen atom going from 1s to 2s to 2p, but still by much more than ordinary thermal energies at room temperature.
虽然不像氢原子从1s激发到2s或到2p那么多,但是这个能量已经非常非常大,对于室温的热能来说。
A discussion is made on the understanding process of hydrogen atom spectrum and problems existing in the experiment are put forward.
本文从理论上探讨了人们对氢原子光谱的认识过程,由此提出了现有实验中存在的问题。
So in hydrogen atom a, I'll depict that here where the nucleus is this dot, and then the circle is what I'm depicting as the wave function.
在氢原子A里,我在这里把原子核画成一个点,这圆就是波函数。
The regression analysis method is used to deal with the data of the hydrogen atom spectroscopy experiment measured by small spectrograph.
利用回归分析方法,对改进的小型摄谱仪测氢原子光谱实验的数据进行了处理。
For decades, particle physicists have used the hydrogen atom as a benchmark for measuring the size of protons, which are part of the core of atoms.
几十年来,粒子物理学家们用氢原子作为基准衡量质子的大小。
Hydrogen brittleness: because, in addition to the erosion oil or plating process such as metal and alloy hydrogen atom absorption and cause brittle.
氢脆:由于浸蚀,除油或电镀等过程中金属或合金吸收氢原子而引起的脆性。
So in talking about the hydrogen atom, they actually have different names for different series, which means in terms of different n values that we end in.
所以就氢原子来说,它的每个系都有不同的名字,代表了不同的末态n值。
So for example, if you know how to draw an s orbital for a hydrogen atom, then you already know how to draw the shape of an s orbital or a p orbital for argon.
举个例子,如果你们知道如果画,氢原子的s轨道,那么你们已经知道如何去,画氩的s轨道和p轨道的形状。
It would instead just grab Hydrogen and Oxygen atoms from out of the air and assemble you out of those (one Hydrogen atom is the same as another, after all).
取而代之的是,只要在空气里抓一把氢和氧的原子,然后把它们组装起来,就是你了(毕竟氢原子们总是一模一样的)。
It would instead just grab Hydrogen and Oxygen atoms from out of the air and assemble you out of those (one Hydrogen atom is the same as another, after all).
取而代之的是,只需正在空气里捕一把氢和氧的本女,然后把它们拆装起来,就是你了(究竟氢本女们分是如出一辙的)。
It would instead just grab Hydrogen and Oxygen atoms from out of the air and assemble you out of those (one Hydrogen atom is the same as another, after all).
取而代之的是,只需正在空气里捕一把氢和氧的本女,然后把它们拆装起来,就是你了(究竟氢本女们分是如出一辙的)。
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