How electrons glide through aether without resistance

As the universe is filled with aether as the medium to support em waves,
the question arises, how do electrons and protons (what the universe is
made of, that is) go through this solid substance? Is that not crystal
sphere busting on an infinitely large scale?
Good question, and let us see if this answer works.
Aether is solid all right, but also infinitely elastic. That is to say
the infinitely fine aether components maintain their relative positions,
no matter how much stretched.
Given that, let us see...
When an electron in its motion hits the aetheric barrier, which is
always happening, it meets resistance from the aether particles which
elastically move aside to let it through. Why does this resistance NOT
slow down the electron as it, say, orbits some nucleus?
The obvious answer is that there is an equal and opposite force pushing
the electron forward, so the forces match, and there is no loss or gain
of velocity with respect to the aether.
Now how is the pushing force, that balances the retarding force, formed?
The aether components that is squeezed sideways regain their original
position when the electron moves from their displaced positions.
In that process they give the same push force to the rear of the
electron, which is exactly the same as the retarding force.
Thus it is, that all the discrete particles move through the solid that
is aether.
Woof-woof
Bertietaylor  (Arindam Banerjee's celestial cyberdoggies)