So the question is pretty simple, how did he came up with the wave function and why does the Schrödinger eq model / predict the change of the wave function throw time?
Well, I remember seeing it on a yt video, I also found now some websites referring to this but I couldn't find a proper reference to this, so I'm assuming it may be a huge simplification?
Hi everyone,
As far as I know tunelling effect can occur within an atom, a proton can "evade" de nuclei. Can this happen also to a quark inside a proton? Will this quark be alone/will the proton have just 2 quarks? I suppose since you don't had any energy to the system the quark wouldn't create...
If placing a mass needs a work to be putted, who was the first mass putted? (i know its an unanswerable question and a more phylosophycal one). However let's suppose we can summon a couple of particles for a little amount of time (like in heisemberg principle, i don't want to extend further more...
since we put our mass, there is a force on the system that will attract the 2 particles. This force needs to do a work to move the particles, if I am right until this point, energy must come from somewhere?
Lets suppose we put a point particle with a mass m here on earth. No energy was used to put it there. It makes sense it will go down, but where does gravity gets the energy to pull the particle? from the earth/particle mass?
Yes, we are ok for saying it's a lot lot of energy, but just in the case we have a photon this energetic, how could it exists if it has a wavelength less big than pl.
Ok guys, so let's suppose we have a mass of 1kg.
We can calculate the energy that matter could deliver. E=mc², roughly 10^8c. Supposing this energy was delivered from a photon (supposing it exists such a processus that could delivery such energy in a single photon), we can calculate the...