After the rise of the theory of relativity and the quantum theory, the classical mechanics has been recognized as an approximate version of both theories - applicable only within the bounds of macro-phenomena and by relatively low velocities. The theory of chaos - unfolding nowadays, and being amplification of the classical mechanics - reverses this relation: quantum processes are treated as a certain rather simple class of non-linear and non-stable mechanics phenomena. The unexpected revival of the classical mechanics forces the considerable weakening of the thesis about incommensurability of the theories separated by a scientific „revolution”
By briefly reviewing three well-known scientific revolutions in fundamental physics (the discovery o...
2Quantum mechanics, with its revolutionary implications, has posed innumerable problems to philosoph...
The role of “chaos” in the fundamental dynamical description, both classical and quantum, is discuss...
The relationship between chaos and quantum mechanics has been somewhat uneasy -- even stormy, in the...
From classical mechanics, in particular the motion in a straight line, together set theory and ordin...
It is argued that dynamical chaos in quantum mechanics arises solely from the collapse rule applied ...
Abstract. Interrelations between dynamical and statistical laws in physics, on the one hand, and bet...
In spite of its popularity, it has not been possible to vindicate the conventional wisdom that class...
1noQuantum Mechanics is one of the most successful theories of nature. It accounts for all known pro...
Based on the Bohr's correspondence principle it is shown that relativistic mechanics and quantum mec...
Classical Mechanics is the oldest and best understood part of physics. This does not mean that it is...
Presetnation at the Midwest Workshop in Philosophy of Science, Technology, Engineering and Mathemati...
Many of the paradoxes encountered in the Copenhagen interpretation of quantum mechanics can be shown...
The approach to classical mechanics adopted in this book includes and stresses recent developments i...
By briefly reviewing three well-known scientific revolutions in fundamental physics (the discovery o...
By briefly reviewing three well-known scientific revolutions in fundamental physics (the discovery o...
2Quantum mechanics, with its revolutionary implications, has posed innumerable problems to philosoph...
The role of “chaos” in the fundamental dynamical description, both classical and quantum, is discuss...
The relationship between chaos and quantum mechanics has been somewhat uneasy -- even stormy, in the...
From classical mechanics, in particular the motion in a straight line, together set theory and ordin...
It is argued that dynamical chaos in quantum mechanics arises solely from the collapse rule applied ...
Abstract. Interrelations between dynamical and statistical laws in physics, on the one hand, and bet...
In spite of its popularity, it has not been possible to vindicate the conventional wisdom that class...
1noQuantum Mechanics is one of the most successful theories of nature. It accounts for all known pro...
Based on the Bohr's correspondence principle it is shown that relativistic mechanics and quantum mec...
Classical Mechanics is the oldest and best understood part of physics. This does not mean that it is...
Presetnation at the Midwest Workshop in Philosophy of Science, Technology, Engineering and Mathemati...
Many of the paradoxes encountered in the Copenhagen interpretation of quantum mechanics can be shown...
The approach to classical mechanics adopted in this book includes and stresses recent developments i...
By briefly reviewing three well-known scientific revolutions in fundamental physics (the discovery o...
By briefly reviewing three well-known scientific revolutions in fundamental physics (the discovery o...
2Quantum mechanics, with its revolutionary implications, has posed innumerable problems to philosoph...
The role of “chaos” in the fundamental dynamical description, both classical and quantum, is discuss...