The Systematic Measurement Errors and Uncertainty Relation
Timur F. Kamalov (Moscow State Open University)
TL;DR
This paper explores the relationship between measurement errors in non-inertial frames and quantum uncertainty, proposing a formalism to address complexities in micro-object descriptions.
Contribution
It introduces a novel approach linking classical inertial effects with quantum uncertainty using Ostrogradski's Canonical Formalism.
Findings
Measurement errors relate to quantum uncertainty principles
Ostrogradski's Formalism simplifies micro-object analysis in non-inertial frames
Theoretical connection between space-time and quantum properties
Abstract
Inertial effects in non-inertial reference frames are compared with quantum properties of tests objects. The real space-time and perfect inertial reference frame can be compared accurate to the uncertainty relation. Complexities if describing micro-object in non-inertial reference-frames are avoidable using Ostrogradski's Canonical Formalism.
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Taxonomy
TopicsScientific Measurement and Uncertainty Evaluation