• Corpus ID: 119253362

The Universal Arrow of Time V-VI: (Part V) Unpredictable dynamics (Part VI) Future of artificial intelligence - Art, not Science: Practical Application of Unpredictable Systems

@article{Kupervasser2011TheUA,
  title={The Universal Arrow of Time V-VI: (Part V) Unpredictable dynamics (Part VI) Future of artificial intelligence - Art, not Science: Practical Application of Unpredictable Systems},
  author={Oleg Kupervasser},
  journal={arXiv: General Physics},
  year={2011}
}
The paper consists of the two independent papers:(Part V) We see that exact equations of quantum and classical mechanics describe ideal dynamics which is reversible and leads to Poincare's returns. Real equations of physics describing observable dynamics, for example, hydrodynamic equations of viscous fluid, are irreversible and exclude Poincare's returns to the initial state. Besides, these equations describe systems in terms of macroparameters or phase distribution functions of… 
1 Citations
The Universal Arrow of Time is a Key for the Solution of the Basic Physical Paradoxes
The modern classical statistical physics, thermodynamics, quantum mechanics and gravity theory are developed and well-known theories. The described theories are developed and well studied for a long

References

SHOWING 1-10 OF 16 REFERENCES
The Universal Arrow of Time II: Quantum mechanics case
This paper is a natural continuation of our previous paper arXiv:1011.4173 . We illustrated earlier that in classical Hamilton mechanics, for overwhelming majority of real chaotic macroscopic
Comment on `Quantum Solution to the Arrow-of-Time Dilemma' of L. Maccone arXiv:0802.0438
A recent Letter by Maccone presents a solution to the arrow-of-time dilemma based on existing laws of quantum mechanics. He argues that all phenomena where the entropy decreases must not leave any
The Universal Arrow of Time
Statistical physics cannot explain why a thermodynamic arrow of time exists, unless one postulates very special and unnatural initial conditions. Yet, we argue that statistical physics can explain
Closed timelike curves, superluminal signals, and "free will" in universal quantum mechanics
We explore some implications of the hypothesis that quantum mechanics (QM) is universal, i.e., that QM does not merely describe information accessible to observers, but that it also describes the
Basic Paradoxes of Statistical Classical Physics and Quantum Mechanics
Statistical classical mechanics and quantum mechanics are developed and well-known theories that represent a basis for modern physics. Statistical classical mechanics enable the derivation of the
Ultimate physical limits to computation
TLDR
The physical limits of computation as determined by the speed of light c, the quantum scale ℏ and the gravitational constant G are explored.
The Universal Arrow of Time III-IV:(Part III) Nonquantum gravitation theory (Part IV) Quantum gravitation theory
The paper consists of the two independent papers - the first one about Nonquantum Gravitation theory, the second one about Quantum Gravitation theory (Part III: Nonquantum Gravitation theory) The
Dynamic entanglement in oscillating molecules and potential biological implications.
We demonstrate that entanglement can persistently recur in an oscillating two-spin molecule that is coupled to a hot and noisy environment, in which no static entanglement can survive. The system
Evolutionary Computation: Towards a New Philosophy of Machine Intelligence
TLDR
In-depth and updated, Evolutionary Computation shows you how to use simulated evolution to achieve machine intelligence and carefully reviews the "no free lunch theorem" and discusses new theoretical findings that challenge some of the mathematical foundations of simulated evolution.
Phonon mode cooperating with a particle serving as a Maxwell gate and rectifier
A fully standard quantum model of a particle interacting with a single-mode phonon system under the influence of a thermodynamic bath is considered. Numerically exact solution shows that, for very
...
...