> Perhaps 'because' if the consistency did not exist then the universe would fail to exist.
I think the unsatisfactory feeling I get from these answers is that nobody ever tries to model worlds with different physics or different physical parameters and try to make them work.
It's one thing to know that everything will break down if parameters of this universe change slightly, but I don't think anyone ever actually seriously tried to make alternatives work, and simply assumed that the only model we know that works is the only possibility.
Of course, I understand it's hard, and we might not have the compute to properly run the simulations to see how things actually work out (without quantum computers, apparently the problem is exponentially hard on classical computers). But philosophically it feels lazy and unimaginative.
> nobody ever tries to model worlds with different physics or different physical parameters and try to make them work.
Alternative models are being explored all the time. There is incentive to do so, because coming up with better explanations is likely to win Nobel prizes. What is now called the standard model, however, so far explains the existing observations the best, despite being more complex and having a higher amount of arbitrariness than most physicists would like.
You're talking about better models for our current physical reality.
I'm talking about consistent models that don't match our physical reality, but that can potentially simulated and which can give rise to intelligent life.
I think the unsatisfactory feeling I get from these answers is that nobody ever tries to model worlds with different physics or different physical parameters and try to make them work.
It's one thing to know that everything will break down if parameters of this universe change slightly, but I don't think anyone ever actually seriously tried to make alternatives work, and simply assumed that the only model we know that works is the only possibility.
Of course, I understand it's hard, and we might not have the compute to properly run the simulations to see how things actually work out (without quantum computers, apparently the problem is exponentially hard on classical computers). But philosophically it feels lazy and unimaginative.