# The Universal Arrow of Time is a Key for the Solution of the Basic Physical Paradoxes

@article{Kupervasser2013TheUA, title={The Universal Arrow of Time is a Key for the Solution of the Basic Physical Paradoxes}, author={Oleg Kupervasser}, journal={viXra}, year={2013} }

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 time. Nevertheless, it contains a number of paradoxes. It forces many scientists to doubt internal consistency of these theories. However, the given paradoxes can be resolved within the framework of the existing physics, without introduction of new laws. Further, in this paper we discuss the…

## 7 Citations

Grandfather Paradox in Non-Quantum and Quantum Gravitation Theories

- Physics
- 2014

In this paper we resolve the grandfather paradox in non-quantum and quantum gravitation theories for time travelling in a time wormhole. For macroscopic bodies, the main solution is alignment of the…

New Cybernetics and the Application of its Principles in Physics

- Computer Science, Art
- 2013

The key idea in cybernetics is feedback, which is a closed cycle: the object affects itself through other objects, and the cybernetician, by entering his own domain, has to account for his or her own activity.

## References

SHOWING 1-10 OF 62 REFERENCES

The Universal Arrow of Time II: Quantum mechanics case

- Physics
- 2011

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…

The Problem of Time. (Book Reviews: The Physical Basis of the Direction of Time.)

- Physics
- 1989

The physical asymmetry of nature under time reversal is analysed in this essay. The author investigates the most important classes of phenomena that characterize a direction of time: radiation,…

Why the Universe is Just So

- Physics
- 2000

Some properties of the world are fixed by physics derived from mathematical symmetries, while others are selected from an ensemble of possibilities. Several successes and failures of ‘‘anthropic’’…

The Universal Arrow of Time

- Physics
- 2010

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…

Quantum solution to the arrow-of-time dilemma.

- Physics, EducationPhysical review letters
- 2009

It is shown that, within a quantum mechanical framework, all phenomena which leave a trail of information behind are those where entropy necessarily increases or remains constant, and physics cannot study those processes where entropy has decreased, even if they were commonplace.

Emergence and Computation at the Edge of Classical and Quantum Systems

- Computer Science
- 2008

It is shown that a quantum system is an informational open system with respect to the observer and able to exhibit processes of observational, radical emergence and takes into consideration the role of computation in describing the physical world.

Decoherence, einselection, and the quantum origins of the classical

- Physics
- 2003

as quantum engineering. In the past two decades it has become increasingly clear that many (perhaps all) of the symptoms of classicality can be induced in quantum systems by their environments. Thus…

Entanglement and the thermodynamic arrow of time.

- PhysicsPhysical review. E, Statistical, nonlinear, and soft matter physics
- 2010

It is proved that the occurrence of a transformation between two thermodynamic states constitutes a new type of entanglement witness, one not defined as a separating plane in state space between separable and entangled states, but as a physical process dependent on the local initial properties of the states.

The Universal Arrow of Time III-IV:(Part III) Nonquantum gravitation theory (Part IV) Quantum gravitation theory

- Physics
- 2011

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…