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| Boltzmann was not easy to argue with. |
The development of modern physics follows a path from statistical mechanics (Boltzmann 1866) over statistics of energy quanta of blackbody radiation (Planck 1900) to quantum mechanics statistics (Born 1926). In each case there was a pressing demand from empire power politics on theoretical physicists to assist in advancement of new technologies, from steam engines to atomic energy:
- Boltzmann took on the challenge to give the 2nd Law of Thermodynamics a rational mathematical physical meaning as the outstanding problem of the mid 19th century.
- Planck took on the challenge to give blackbody radiation a rational mathematical physical analysis, as the outstanding problem of classical physics at the end of the 19th century.
- Born took on the challenge to give the wave function of the new quantum physics a scientific meaning.
Boltzmann failed and so invented statistical mechanics based on an idea of macro-states supported by micro-states with probability increasing with number of micro-states.
Planck failed and inspired by Boltzmann invented a way of computing energy quanta with probability decreasing with increasing frequency.
Born inspired by Planck resorted to statistics by giving the wave function a meaning as probability of electron configuration.
The use of statistics is fundamentally different in all three cases, but Boltzmann started it all.
This means that modern physics largely is statistical physics. Is this a problem? It means giving up the essence of classical physics as rational deterministic physics based on cause-effect. In statistical physics things happen by chance and rationality is lost. It may be a high price to pay, in particular if it is not really necessary.
Real Quantum Mechanics offers an new approach to quantum mechanics without statistics.
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