The magnetic cleavage of the spectral lines is dependent on the size of the charge of the electron, or, more accurately, on the ratio between the mass and the charge of the electron.
According to well-known electrodynamic laws, an electron moving in a magnetic field is acted upon by a force which runs perpendicular to the directio… - Pieter Zeeman
According to well-known electrodynamic laws, an electron moving in a magnetic field is acted upon by a force which runs perpendicular to the directio…
- Pieter Zeeman
The magnetic cleavage of the spectral lines is dependent on the size of the charge of the electron, or, more accurately, on the ratio between the mas… - Pieter Zeeman
The magnetic cleavage of the spectral lines is dependent on the size of the charge of the electron, or, more accurately, on the ratio between the mas…
Moreover, photography has made it possible to fix these images and now provides us with a permanent record of each observed spectrum, which can be me… - Pieter Zeeman
Moreover, photography has made it possible to fix these images and now provides us with a permanent record of each observed spectrum, which can be me…
It was not simply out of a spirit of contradiction that I exposed a light source to magnetic forces. The idea came to me during an investigation of t… - Pieter Zeeman
It was not simply out of a spirit of contradiction that I exposed a light source to magnetic forces. The idea came to me during an investigation of t…
Nature gives us all, including Prof. Lorentz, surprises. It was very quickly found that there are many exceptions to the rule of splitting of the lin… - Pieter Zeeman
Nature gives us all, including Prof. Lorentz, surprises. It was very quickly found that there are many exceptions to the rule of splitting of the lin…
On the basis of Lorentz's theory, if we limit ourselves to a single spectral line, it suffices to assume that each atom (or molecule) contains a sing… - Pieter Zeeman
On the basis of Lorentz's theory, if we limit ourselves to a single spectral line, it suffices to assume that each atom (or molecule) contains a sing…
The rotation of the polarization plane is extraordinarily small in all gases, thus also in sodium vapour. - Pieter Zeeman
The rotation of the polarization plane is extraordinarily small in all gases, thus also in sodium vapour.
I count myself fortunate to be able to contribute to this work; and the great interest which the Royal Swedish Academy of Sciences has shown in my wo… - Pieter Zeeman
I count myself fortunate to be able to contribute to this work; and the great interest which the Royal Swedish Academy of Sciences has shown in my wo…
Login to join the discussion
Login to join the discussion