Originally posted by Loren Booda
In an infinite physical universe, can we describe mathematically physical impossibility, or are such constraints (e. g., Heisenberg uncertainty principle, constant speed of light, energy and momentum conservation) for finite space only?
In the exact same way that there are an infinite number of points on the real number line between any two given points. So?Originally posted by Chi Meson
One of the neat things about chaos theory is fractals which are, specifically, images produced by very simple algorithms. Fractals have infinite complexity although they exist within a finite space.
You're thinking of Olber's paradox, and it has nothing whatsoever to do with chaos theory.Chaos theory has been used to answer the old atronomy paradox (I forgot whose paradox this is). IT was thought that if the universe was infinate, and the distribution of stars was random, then there should be light coming from every point in space, and the night sky would be very bright.
This was the first suggested solution, but it is a red herring. Given infinite time, the dark matter would absorb enough energy to be just as radiant as the stars themselves.This paradox was solved already in several other explanations (light is absorbed by dark matter is the most obvious one).
On the contrary, that assumption seems quite true. In fact, it's one of the most basic assumptions of cosmology -- that, at large enough scales, the universe is homogenous.BUt it is false to assume that there is a random distribution of stars.
I don't see any connection between galaxies and fractals. The type of fractals you seem to be interested in are the coastline- and fern-type fractals, like the Mandelbrot set. They are just examples of images with similar structure at all scales. Real galaxies do not exhibit this behavior in any respect -- they are very different at different scales.Galaxies and clusters are formed according to specific rules, and this is why a number of repeating shapes keep appearing. Galactic formations are perfect examples of fractal images (but then again, so is nearly everything).
Okay?My point is, by saying that there is infinite space, and infinite possibilities, it does not necessarily follow that there be an infinite set of rules and constants. THere could be an infinite number of universes, but there does not have to be an infinite number of universal laws.
Whether the universe is finite or infinite has nothing to do with "Heisenberg uncertainty principle, constant speed of light, energy and momentum conservation", etc.
Loren Booda wrote
HallsofIvy,
Please read Chi Meson's response.
In this context, "physical impossibility" refers to any event or phenomenon that violates the known laws of physics. In an infinite universe, there is a possibility that these laws may be different or unknown, allowing for the existence of seemingly impossible things.
Exploring physical impossibility in an infinite universe involves using scientific methods and theories to investigate and understand the nature of the universe. This can include studying theoretical physics, conducting experiments, and observing and analyzing astronomical phenomena.
Some examples of physical impossibilities that could exist in an infinite universe include time travel, parallel universes, and faster-than-light travel. These concepts are currently considered impossible in our known universe, but in an infinite universe with different physical laws, they may be possible.
If physical impossibilities do exist in an infinite universe, it could challenge our current understanding of the universe and require us to revise or expand our theories and models. It could also open up new possibilities for scientific exploration and advancement.
It is impossible to say for certain, but it is possible that humans may never fully comprehend or explore all of the physical impossibilities in an infinite universe. As our understanding and technology continue to advance, we may be able to uncover more and more about the universe, but it is possible that there will always be mysteries that we cannot solve.