And that's what you want because the electron repulsion is only felt when you are in really, really close.
而那就是你想要的,因为电子间的斥力只有当它们,离得非常非常近时才能感觉得到。
We are bodies in motion, and who cannot help but obey the law or the physics of attraction and repulsion.
我们处在运动状态,这是无法控制的,只有遵循规律,或者引力和斥力的规律。
And, that's given by the balance between the attractive force of the ions offset by the repulsive force in the electronic shells.
而那是由,在离子的电子层之间的,引力和斥力相互抵消得到的。
This is the repulsion, not the repulsion.
这是斥力,不是斥力。
But once in awhile, one of these plus twos comes in almost on axis, and it gets whipped around by the Coulombic repulsive forces.
但是偶尔一个带两个正电荷的粒子,以接近于轴的位置进入,会快速的移动到周围,由于库仑斥力的作用。
Positive energy is repulsive, and negative energy is attractive.
正的能量值代表斥力,负的能量值代表引力。
There is a repulsive force, the attractive force between ions of opposite charge is offset by a repulsive force due to electron cloud interactions.
有一个斥力时,存在于电性不同的离子间的引力,是可以被抵消的,因为电子可以相互影响。
And, see, out at very, very high separations, it's essentially all repulsive, excuse me, all attractive.
看,当它们离得很远很远时,基本上只有斥力,对不起,是引力。
b The repulsive term goes as some constant lower case b divided by R to the n. N is not the quantum number.
这种斥力很想一个固定的小写字母,被R到n分开的话,N不是量子数。
Now, how about this repulsion between electrons?
电子间的斥力是什么样子呢?
And, there is a mutual repulsive force here.
并且有一个相互的斥力。
If z is greater than 1, then the real gas means that the atoms and molecules in the real gas are repelling each other and wants to have a bigger volume.
如果Z大于,说明实际气体的分子间斥力较强,体积比理想气体要大,我们可以查表找到。
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