YAN AYRTON : The uncertain ballet frantic from Invisible:Quarks & leptons & muons. PIANO solo.

A young voice on the cosmic architecture : peculiar and singular.
A TRIBUTE TO WERNER HEI.
The more precisely the position is determined, the less precisely the momentum is known in this instant, and vice versa.
--Heisenberg, uncertainty paper, 1927

Uncertainty will always be part of the creation and recriation of life process.All things are interconnected and influence themselves one each other YAN AYRTON
This efuviness elusiveness is called life. YAN AYRTON
Uncertainty and expectation are the joys of life. Security is an insipid thing. YAN AYRTON

In all human history we started to really to approach ,to understand the superb dialects from God through the the genial wisdom and stunning synthesis
from Werner Hei. Nothing is comparable to this.YAN AYRTON
Faith means living with uncertainty - feeling your way through life, letting your heart guide you like a lantern in the dark YAN AYRTON

This is a succinct statement of the "uncertainty relation" between the position and the momentum (mass times velocity) of a subatomic particle, such as an electron. This relation has profound implications for such fundamental notions as causality and the determination of the future behavior of an atomic particle.

Because of the scientific and philosophical implications of the seemingly harmless sounding uncertainty relations, physicists speak of an uncertainty principle, which is often called more descriptively the "principle of indeterminacy." This page focuses on the origins of Heisenberg's uncertainty relations and principle.

Quantum mechanics is generally regarded as the physical theory that is our best candidate for a fundamental and universal description of the physical world. The conceptual framework employed by this theory differs drastically from that of classical physics. Indeed, the transition from classical to quantum physics marks a genuine revolution in our understanding of the physical world.
One striking aspect of the difference between classical and quantum physics is that whereas classical mechanics presupposes that exact simultaneous values can be assigned to all physical quantities, quantum mechanics denies this possibility, the prime example being the position and momentum of a particle. According to quantum mechanics, the more precisely the position (momentum) of a particle is given, the less precisely can one say what its momentum (position) is. This is (a simplistic and preliminary formulation of) the quantum mechanical uncertainty principle for position and momentum. The uncertainty principle played an important role in many discussions on the philosophical implications of quantum mechanics, in particular in discussions on the consistency of the so-called Copenhagen interpretation, the interpretation endorsed by the founding fathers Heisenberg and Bohr.
This should not suggest that the uncertainty principle is the only aspect of the conceptual difference between classical and quantum physics: the implications of quantum mechanics for notions as (non)-locality, entanglement and identity play no less havoc with classical intuitions.
HEY THE UNIVERSE LISTEN UP
MY MUSIC. Yan Ayrton

YAN AYRTON : The uncertain ballet frantic from Invisible-Quarks&eptons& muons&mesons.PIANO: Allegro vivace con fouco.

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