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[deleted] t1_j1do7kf wrote

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nicuramar t1_j1ds7we wrote

> The universe is not expanding faster than c. In the very early universe, this was true,

What’s that supposed to mean? Expansion is a rate, not a velocity. Relative velocity is only locally well-defined.

How did the early universe expand at more than c in any way that doesn’t just as well apply now, over enough distance?

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drosse1meyer t1_j1e13q0 wrote

Well, if you want to be pedantic, velocity is a rate too, is it not? Distance over time.

Anyway, there are countless articles / studies about this that can explain it far better than anyone on this thread. Suffice it to say, the size of the universe expanded from the planck length to a factor on the order of 10^28 in an extremely short amount of time

Existing radiation would simply be stretched and omnipresent given this massive change. That is why we have the CMB.

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nicuramar t1_j1e7dhd wrote

> Well, if you want to be pedantic, velocity is a rate too, is it not?

Yes, but expansion is velocity over distance, so it’s not units of velocity and thus isn’t c or below or above c.

> Suffice it to say, the size of the universe expanded from the planck length to a factor on the order of 1028 in an extremely short amount of time

The observable universe. Maybe, yes, but that doesn’t make it expand at a certain velocity unless you measure over a certain distance. And at this distance, relative velocity wouldn’t be well defined due to the curvature of spacetime, and wouldn’t be constrained to c anyway.

See first answer to this: https://physics.stackexchange.com/questions/400457/what-does-general-relativity-say-about-the-relative-velocities-of-objects-that-a

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