TFNR - Quantum objects
Quantum objects are small physical objects (such as atoms, ions of atoms, subatomic particles such as electrons and photons) that cannot be described by classical mechanics. Quantum "physics / mechanics" is the discipline that studies these objects.
In this System of Knowledge we identify and classify these objects partly as Structures of Information (Waves, Particles and their Interactions), elementary or composite, and partly as Forms (atomic nuclei, atoms, ions) and Systems of Forms (molecules, and small objects that exhibit quantum behaviors).
As seen previously in this same chapter, Information Structures, more or less stable in time, more or less extended in space, patterns of organization of Physical Processes at the level of the Elementary Field (Relations between Events), patterns of correlations between the temporal distributions of the spatial fluctuations of the Elementary Field with resonance at the Planck scale. And Physical Forms, which we will see in the next chapter.
Their behavior, some phenomena in which they are the protagonists, their dynamics are generally strange and in some respects very far from the classical one we are accustomed to in our ordinary life. The difficulty of interpreting observations, measurements, the results of some key experiments, has led to a distancing from a descriptive and explanatory conception of science, physics in particular, and to the renunciation of a "reasonably realistic" vision of the world.
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