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by maze-le 1213 days ago
Not really, c^2 has the unit of velocity squared, not acceleration:

[c^2] = [(v^2/t^2)] != [(v/t^2)] = [a]

We can also choose natural units where c==1, which leads directly to e==m
1 comments
boomboomsubban 1213 days ago
I took "accelerated" to mean at a certain speed, like in the sentence "we accelerated to 1 meter per second," not acceleration itself.
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javaunsafe2019 1213 days ago
Still wrong. It’s a constant here that plays a role in the relation between mass and energy. That’s all. the speed of light is always the same. The mass was not accelerated to it.
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boomboomsubban 1213 days ago
No, e=mc^2 is the equation for something at rest. The full equation involves the momentum as well, see https://en.wikipedia.org/wiki/Energy%E2%80%93momentum_relati...

It's why I said "broadly what the equation shows." It's hard to tell at rest, but it is still technically including the momentum.

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javaunsafe2019 1213 days ago
Ok I understand now what you mean and agree with your point. I guess I over simplified my take.
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