A Possible Angular Quantization as a Complement to the Conventional Radial Quantization in the Hydrogen Atom and Aqueous Systems

Abstract

In this work we propose, apparently for the first time, a possible angular quantization as a complement for the conventional radial quantization with the intent of initiating quantitative studies regarding the capability of liquid water to acquire and propagate information. We articulate the proposed angular quantization via the absorption of thermal energy by the hydrogen atom in the ground state at absolute zero degree temperature prior to the transition to the first excited state. We extend the proposed angular quantization to the hydrogen and water molecules; and conclude that if our model of angular quantization is confirmed, the liquid state of water has the capability of acquiring and propagating a truly vast quantity of information, explaining demonstrated chemo-analogous biological effects apart from chemical exposure.