Why would a hydrogen atom form if proton and electron are left to attract each other, when they are very near?

Question

In this question the OP asked, if electron and proton ,which are very near to each other,are left to attract in a straight line then what will happen? The answer was that a Hydrogen atom will form. But I have a doubt. Hydrogen atom has an angular momentum. When the particles electron and protons attracted each other, there was no angular momentum but hydrogen atom, which formed due to attraction,has angular momentum therefore it violates the conservation of angular momentum.

So my question is - Why would a hydrogen atom form if electron and proton ,which are very near to each other,are left to attract in a straight line, given that it violates conservation of angular momentum? Also kindly note that no torque is applied to create circular motion. Wouldn’t some kind of force would be required to create a angular motion from a linear motion?

Answer 1

You raise a good question because formation of a hydrogen atom is not as simple as it might appear at first sight. The question What happens when we bring an electron and a proton together? goes into a lot of the details.

However angular momentum is not usually a problem. The ground state of the hydrogen atom has a zero angular momentum so if the electron and proton are headed towards each other with zero angular momentum this won't prevent formation of the atom. If they do have some angular momentum this isn't a problem either as the atom can form in an excited state then emit photons to carry away the excess angular momentum.