Benjamin Seet's Questions on Math, Pion Creation, Beta Decay & Electron Levels

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Benjamin Seet seeks clarification on several advanced topics in physics and mathematics. He questions the simplest form of the time-dependent Schrödinger equation and expresses confusion about the del-squared operator and the imaginary unit. He inquires about pion creation, specifically how pions are formed during nucleon interactions and the role of gluons in quark dynamics. Additionally, he discusses negative beta decay, questioning how an atom can remain stable after losing an electron and becoming an ion. Lastly, he seeks to understand the electron exclusion principle and the capacity of electron levels, noting discrepancies in the traditional model of electron configuration.
Tom McCurdy
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Quoting Benjamin Seet <ugmail544@yahoo.co.uk>:
> Yea hi,
>
>
> My mathematics is still not up to standard yet, I
> can't really do much, aside from basic calculus,
> that's about it, maybe basic matrices.
>
> 1. Schrodinger equation: If I'm not wrong, the time
> dependent equation is the easiest to solve right? What
> is the simplest form of the equation?
>
> I do not understand how do I work with the del-squared
> operator, and how to solve the first order PD of
> d(psi)/dt. As well as the imaginary no. i, help in
> this would be really really appreciated.
>
> 2. Pion creation: How are pions created? the ones
> which nucleons exchange among themselves? I've read
> something about "pulling" individual quarks (i.e.
> making it gain energy) from a particle, in this case a
> nucleon, and a meson would be formed.
>
> Is this how pions are made? When the gluons constantly
> change the colours of quarks inside a nucleon?
>
> 3. Beta Decay: If in negative beta decay, a neutron
> changes into a proton, charge is conserved. But the
> newly created electron, the beta particle, is soon
> expelled from the atom. How can the atom remain
> chemically stable after that as it is now an ion?
>
> 4. Electron Levels: Exclusion principle states that no
> 2 fermions with similar spin can inhabit the same
> quantum state. But how is it that in certain electron
> levels, there's more than 2. There's something about
> angular momentum and stuff like that which I don't
> really understand.
>
> I've read that each level has a unique number of
> electrons in which it can accommodate, so is the model
> used in chemistry wrong? The first level having only
> 2, and the rest 8?
 
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electron levels are made of several orbitals, hunds rules states that each individual orbital can ONLY have 2 electrons of opposite spins... when you do electron configuration you have one arrow up and one down this is what Hund is talking about. for example p has 3 orbitals and each has only 2 electrons
 

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