While the value 1.498×10⁻⁴⁶ seconds might appear exceptionally small and theoretical, it's important to highlight that this value is derived as a fraction or part within the context of the empirical or theoretical framework concerning the Planck scale.
The derivation of such fractional values within the Planck scale often emerges through rigorous mathematical and theoretical considerations based on the fundamental constants of nature, such as Planck's constant, the speed of light, and gravitational constants. These derivations are firmly grounded in the foundational principles of physics and aren't purely speculative in the sense of being arbitrarily defined or assumed without any empirical or theoretical basis.
Such fractional values within the Planck scale arise from the intricate interplay of fundamental physical constants and theoretical frameworks like quantum mechanics, general relativity, and attempts to unify these theories at the most fundamental level, typically within the domain of quantum gravity.
Therefore, these values might seem incredibly small and challenging to directly observe or validate experimentally, but they are derived as logical consequences within the well-established theoretical framework governing the behaviour of the universe at its most fundamental scales.
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