I have been tasked to write a research paper on stars. However, I know very little about physics in general. I am learning about how we can glean information about stars by analyzing the light that they emit. So, first, I am learning about how light interacts with matter.
I just learned about atoms and the fact that they normally exist in a grounded state. Either a collision with another atom or the absorption of a photon with the right wavelength can force the electron(s) in the atom up to a higher energy level. The atom is now in an excited state.
However, atoms can not remain in an excited state, as this state is not stable. So, 10-6 to 10-9 seconds later, a photon is emitted due to a new found surplus of energy as the electron drops back down to its ground level.
- Subquestion: which is the cause and which is the effect here? Is the electron dropping down because the photon is released? Or is the release of the photon the result of the electron being sucked back down by some fundamental force? If the latter is the case(which I suspect) what is this force? Is this the electromagnetic force?
It is my understanding that (assuming the excitation was caused by the absorption of a photon) the photon being released would have a wavelength equal to the photon that was absorbed.
If the above is true, I am confused as to how we notice absorption lines in light that passes through a gas.
It is stated that the atoms in the gas absorb some of the light that is passing through them, but under my current understanding of the interaction, this light would soon be re-emitted. So, I would think that we should still see a continuous spectrum. what am I missing here?