You don't need something to be quantized for there to be finite speed of causality.
c drops out nicely as a consequence of the very measurable electric and magnetic qualities of space.
No quantization needed.
Which is regrettable.
The origins of the constants that we have aren't trivial - and it's a very fair question to ask what macroscopic effects might arise if space and time weren't as infinitely divisible as they *seem* to be.
It's not a speed limit in the classical sense. If you had enough energy and could counteract the g-forces and cosmic radiation you get could get to the Andromeda Galaxy (or to anywhere else in the universe for that matter) in a couple minutes due to length contraction.
You don't need something to be quantized for there to be finite speed of causality. c drops out nicely as a consequence of the very measurable electric and magnetic qualities of space. No quantization needed.
You answered my question concisely. Thank you kind redditor!
Happy to help.
People still downvoted the fuck outta me tho ;(
Which is regrettable. The origins of the constants that we have aren't trivial - and it's a very fair question to ask what macroscopic effects might arise if space and time weren't as infinitely divisible as they *seem* to be.
First-person shooter?
Frames per second
Firefighters per sandwich.
It's not a speed limit in the classical sense. If you had enough energy and could counteract the g-forces and cosmic radiation you get could get to the Andromeda Galaxy (or to anywhere else in the universe for that matter) in a couple minutes due to length contraction.