Put bb size iron ball in the center of marble size sponge ball, call it enertron.
Put sesame size iron ball in the center of marble size softer sponge ball, call it electron.
A strong magnet pole as proton.
Put many enertron and 1 electron close to the pole, what will happen?
The enertrons will cover the pole to form a ball, the closer to the pole the higher density.
The electron will float on top of the enertron ball.
That is similar to how a hydrogen atom formed.
Electron is impossible orbiting/clouding around proton to form a stable atom. There is no force/cause to make it happen.
Electron mass = 9 x 10^-31 kg, Electron charge = 1.6 x 10-19 (C), Ke=9 x 10^9 Nmm/ss, hydrogen atom radius = 10^-10 m, F=Ke x ee/rr.
Let's calculate the attraction force between electron and proton in a hydrogen atom.
F=9 x 10^9 x 1.6^2 x 10^-38/10^-20 = 2.3 x 10^-6 Nmm/ss
Now let's calculate the acceleration between proton and electron in a hydrogen atom.
a=F/m=2.3 x 10^-6/9 x 10^-31 = 2.5 x 10^24 m/ss
That's way faster than light speed right?
How is it possible that electron is not colliding with proton but orbiting/clouding around it?
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