Rydberg constant

Determine the Rydberg constant with sodium atomic spectra

由钠原子光谱测定里德伯常数

Deducing Rydberg constant in different ways

用不同的方法导出里德伯常量

The negative of the Rydberg constant now divided by2 squared .

负的Rydberg常数，除以2的平方。

Measurement of the Rydberg constant

里德伯常量的测量

We can also figure out the energy of this orbital here , and the energy is equal to the Rydberg constant .

我们同样可以知道，这个轨道的能量，它等于，Rydberg常数。

So now we have that energy is equal to the negative of the Rydberg constant divided by n squared .

我们可以把能量方程大大简化，现在能量等于负的Rydberg常数除以n平方。

So , if we just rearrange this equation , what we find is that z effective is equal to n squared times the ionization energy , IE all over the Rydberg constant and the square root of this .

我们可以发现有效的z等于n的平凡，乘以电离能除以里德堡常数，这些所有再开方，所以等于n乘以，除以RH整体的平方根。

Rydberg constant can be deduced from hypothesis based on the condition of angular momentum quantization and from correspondence principle . In comparison with the experimental value , the results of the two methods are compared and show that they agree with each other .

分别以角动量量子化条件的基本假设和对应原理准则导出里德伯常量，并将两种方法的结果与实验值相比较，其结果具有一致性。