I explored here the topic about electron orbitals here below, and just remembered the puzzling question what long years was discussed here when physicists have nothing to do. Always it was lot of fun.
Just it is well known that one fool may produce a question what million wise-man cannot to answer, this is kind of those.
I was teaching a school physics and one more than gifted pupil asked it to me at form 12, where we speak autumn session of RF electronics, power electricity and optics, but after in spring session we speak about nuclear reactions, nukes and Einstein formula for mass defect. In the mass defect is all the salt.
I never cached it by myself - but he did: what energies You know in physics - kinetic mv^2/2, deformational kx^2/2, rotational Iw^2, capacitative CU^2/2, inductive LI^2/2, resistive RI^2/2 and so on and so on. And then came Einstein and said - You all fools, my formula will be E=mv^2 and there must stay no any halve. And happened that he turned out being right.
The question is - who eat up the halve and for what reasoning.
Just it is well known that one fool may produce a question what million wise-man cannot to answer, this is kind of those.
I was teaching a school physics and one more than gifted pupil asked it to me at form 12, where we speak autumn session of RF electronics, power electricity and optics, but after in spring session we speak about nuclear reactions, nukes and Einstein formula for mass defect. In the mass defect is all the salt.
I never cached it by myself - but he did: what energies You know in physics - kinetic mv^2/2, deformational kx^2/2, rotational Iw^2, capacitative CU^2/2, inductive LI^2/2, resistive RI^2/2 and so on and so on. And then came Einstein and said - You all fools, my formula will be E=mv^2 and there must stay no any halve. And happened that he turned out being right.
The question is - who eat up the halve and for what reasoning.