Analysis of the water dissociation accepted theory
Abstract
In this essay, the actual accepted water dissociation theory is
questioned, because a single proton H+ cannot exist as an isolated
particle considering the water structure characteristics. Even
though it is said that the proton can exist hydrated as H3O+, the
most recent spectroscopic attempts to prove the existence of this
particle have failed. The practice of measuring water dissociation
with the passage of electric current has led to the generation of
different symbols to represent a particle that does not naturally
exist. To support water no dissociation, let us consider any aqueous
solution of hydrochloric acid in which, as classic chemistry
assumes, the Cl, H+ and OH− radicals are dissociated inside the
solution. If heat is applied and the solution boils and evaporates,
it is always observed that molecules of H2O and HCl are
evaporated completely and never evaporate detached ions. From
this observation can be concluded that HCl and water were not
dissociated inside the solution. If really these compounds were
dissociated in the solution, it would mean going from a disorderly
system, ions in solution, to an orderly one, molecules evaporated
from the solution by temperature increase. This clearly contradicts
the thermodynamics second law.
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