Is space completely chaotic?

According to the chaotic universe model, the universe oscillates in time with chaotic dynamics without repeating itself. In this universe model, there is no singularity, big crunch or big rip. The universe evolves depending on the competing between components.

Why are chaotic systems deterministic?

Chaos theory concerns deterministic systems whose behavior can, in principle, be predicted. Chaotic systems are predictable for a while and then ‘appear’ to become random. This means, in practice, a meaningful prediction cannot be made over an interval of more than two or three times the Lyapunov time.

Is there something truly random?

Researchers typically use random numbers supplied by a computer, but these are generated by mathematical formulas – and so by definition cannot be truly random. True randomness can be generated by exploiting the inherent uncertainty of the subatomic world.

Is there anything random in nature?

There is no known way to determine whether something is truly random. This is true for both abstract and concrete phenomena. All natural phenomena which appear to be random, such as atomic decay, may be non-random, but in a yet-to-be-detected manner. Thus, randomness is at best a conjecture.

Is there any randomness?

For some scientists and mathematicians, there is undoubtedly pure randomness. Sequences having effects but no cause. They are called True Random Number Generator (TRNG) and must be based on random physical sources. It is in quantum physics, we are familiar with true random phenomena.

Can a chaotic system be deterministic?

7 Answers. Well, yes. In a purely mathematical world where you can specify initial conditions exactly, chaotic systems are fully deterministic. It’s not like a quantum system with wavefunction collapse, whose evolution can never be specified exactly by the initial conditions.