The fine art of missing the point! :-D

It isn't relativity (SR) that "assigned momentum to electromagnetism",
it was Maxwell who did that. That was the main point in the video!

E = mc² because mass-less EM-radiation has kinetic energy and momentum!

Look at the explanation of Einstein's 1906 paper in the video.

I will give a simple variant of it, using only
Newtonian mechanics and Maxwell's theory.

Given an empty box with length L and mass M.

A photon (or EM-pulse) with energy E and momentum p = E/c
is emitted from one end of the box and absorbed in the other.

When the photon is emitted, the recoil will give the box a speed
v = p/M. When the photon hits the other wall a time t = L/c later,
the box will stop. It has then moved a distance d = Lv/c, so the
centre of mass will have moved a distance d = Lv/c.

According to NM a mass m moving at the speed c will have the momentum
p = mc. So we can set Mv = mc, or v/c = m/M and d = Lm/M.

If we move a mass m the distance L relative to a mass M, the mass
centre will move a distance d = Lm/M.

Conclusion:
When a photon with momentum p = E/c move from one side of the box
to the other, this will move the centre of mass the same distance
as if a mass m with the momentum mc moved from one side of the box
to the other.
E/c = mc -> E = mc²

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This was according to NM and Maxwell. To show that E = mc² is valid
according to SR is a bit more complicated, but it is done.

My point was to show that the real reason for why mass and energy
are equivalent is that mass-less EM-radiation has energy an momentum.