Just piling onto this I really hate how it’s always portrayed as if ftl would somehow break causality. I cannot for the life of me figure out any way in which something travelling faster than light would do that. Travelling faster than sound doesn’t break the air eithe (well it sort of does but the air is still there working as air once the sonic boom has passed it)r.
Bit of a tangent but I get the feeling a lot of scientists are stuck revering the old geniuses a bit too much. Einsteins formula is basically taken as gospel, to suggest it might be inaccurate is seemingly treated as heresy and I don’t think that’s a good thing.
Newton’s theory of gravity was also revered as undenoable fact but lo and behold it was severely inaccurate. What makes these people believe it’s any different with Einstein and co? (arguably this could be down to the media distorting sentiment among scientists but that only improves things marginally)
Newtons laws actually do an amazingly good job of describing motion in the realms of physics we typically interact with. Newtons laws aren’t wrong, for things like making an airplane fly and boats float, or things like throwing a ball/shooting an arrow/shooting a bullet, they’re just incomplete when you look at the “extremes” like inner planetary orbits. The main reason Einstein is so revered is because he was able to develop a theory and equations that do accurately predict what had been observed.
Almost certainly Einsteins theory is similarly incomplete, we just have to find the extremes where its predictions don’t agree with experiment and then understand what the experiment results actually mean and what could cause them.
One thing to always remember is that all these laws and theories and equations are just ways to model and predict the reality we experience.
All models are wrong. Some models are useful.
Except it’s not - it’s accurate enough within certain limits to still be useful today. It’s only inaccurate in extreme cases. Relativity is more accurate, sure, but outside of the extremes, it’s more complex than Newton’s and not worth the extra trouble.
The “speed of light” is represented by the letter c, because it’s actually not the speed of light, it’s the speed of causality. We can’t observe light going faster than that limit, because we’d be seeing the effect before the cause. In short, FTL travel doesn’t break causality as a side effect, you’d have to break causality to do any FTL travel.
The speed of “light” and the speed of “gravity” are the same, whatever makes the speed of light be what it is has something fundamental to do with how gravity works and how it’s waves propagate.
Just piling onto this I really hate how it’s always portrayed as if ftl would somehow break causality. I cannot for the life of me figure out any way in which something travelling faster than light would do that. Travelling faster than sound doesn’t break the air eithe (well it sort of does but the air is still there working as air once the sonic boom has passed it)r.
Bit of a tangent but I get the feeling a lot of scientists are stuck revering the old geniuses a bit too much. Einsteins formula is basically taken as gospel, to suggest it might be inaccurate is seemingly treated as heresy and I don’t think that’s a good thing.
Newton’s theory of gravity was also revered as undenoable fact but lo and behold it was severely inaccurate. What makes these people believe it’s any different with Einstein and co? (arguably this could be down to the media distorting sentiment among scientists but that only improves things marginally)
Newtons laws actually do an amazingly good job of describing motion in the realms of physics we typically interact with. Newtons laws aren’t wrong, for things like making an airplane fly and boats float, or things like throwing a ball/shooting an arrow/shooting a bullet, they’re just incomplete when you look at the “extremes” like inner planetary orbits. The main reason Einstein is so revered is because he was able to develop a theory and equations that do accurately predict what had been observed.
Almost certainly Einsteins theory is similarly incomplete, we just have to find the extremes where its predictions don’t agree with experiment and then understand what the experiment results actually mean and what could cause them.
One thing to always remember is that all these laws and theories and equations are just ways to model and predict the reality we experience. All models are wrong. Some models are useful.
Except it’s not - it’s accurate enough within certain limits to still be useful today. It’s only inaccurate in extreme cases. Relativity is more accurate, sure, but outside of the extremes, it’s more complex than Newton’s and not worth the extra trouble.
The “speed of light” is represented by the letter c, because it’s actually not the speed of light, it’s the speed of causality. We can’t observe light going faster than that limit, because we’d be seeing the effect before the cause. In short, FTL travel doesn’t break causality as a side effect, you’d have to break causality to do any FTL travel.