We propose a definition of physical objects that aims to clarify some in-terpretational problems in quantum mechanics. We claim that the transformations induced by an objective property of a physical system must leave invariant all the other objective properties of the same system. The uncertainty principle is understood as a natural consequence of the imbrication between objective properties and non-objective properties. It follows from the proposed definition that in classical mechanics non-objective properties are wrongly considered objective. We conclude that, unlike classical mechanics, quantum mechanics provides a complete objective description of physical systems.
CITATION STYLE
Catren, G. (2009). Can Classical Description of Physical Reality Be Considered Complete? (pp. 375–386). https://doi.org/10.1007/978-1-4020-9510-8_23
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