3 levels of H2O relations
By Henryk Szubinski
.hOW SHIELDING A CURRENT BY SOLAR RADIATION HAZZARDS CAN CHARGE THE OCHEAN BY ITS SIMIILAR CURRENT VALUE SO THAT THERE IS A DISCHARGE INTO THE OCHEANS BY THE NEUTRALISED CURRENT VALUE….
.keeping the overcharge and subsequent circuit burn outs as neutralised as basic as the types of electrical discharge safety on some cars with a rubber string tailing behind it in connection to the road..
. Transfer of an elementary particle, i.e. an electron, a proton, or a hydrogen, is a fundamental chemical reaction, which are at the core of many energy conversion and associated charge transport processes in chemistry and biology. Examples include light harvesting in plants, enzymatic conversion of carbon dioxide into (bi)carbonate, proton pumping through biological membranes, excitation conversion mechanisms in photostabilisers , acid-base neutralization reactions and the von Grotthuss mechanism of proton transport in bulk water. Techniques to study the transfer of elctrons, protons or hydrogen atoms range from nuclear magnetic resonance, inelastic neutron scattering, infrared and Raman spectroscopy, and electronic spectroscopy. In all these cases the transfer reaction is described as motion in a double well potential energy surface along the reaction coordinate, either over the barrier by solvent- or temperature induced effects or by tunnelling through the barrier. In the aforementioned techniques the observed relative populations are always ensemble-averaged over the possible configurations and dynamical aspects can only be deduced in an indirect way. Ultrafast spectroscopy with an optical pump trigger pulse allows for a direct monitoring of the transfer reaction in real time. Until now these time-resolved studies have been performed with optical probing techniques, with which only limited structural information can be obatined. We pursue the implementation of femtosecond mid-infrared spectroscopy to study the structural dynamics of charge transfer processes.
Theese do not necessarily be so complex
STREAMING H2O IN ITS BASIC BOOSTING OF A WAVEFORM VALUE IN WHICH THE BASICS OF DISPLACEMENT IS PISTON INDUCED MOTION IN REVERSE
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as the static rubber band in rotational moment against the left hand thumb rule to reverse the flow in a multiple relations of water as its conductable discharge neutrlaisations.
1) the basics of the parameter of H2O as in a waveform flow of H2O molecules as H2O (s)
the basis of the full volume levels and their reversed displacements of the basic Piston applications where the H2O stream can be boosted by type PISTONS in a wave form motion meaning that displacement can be simulated by 1 piston:
2) the basics of the dimensionality of the involved lim x = waveform value where the x approaches a reductions waveform in the Volume = additionality of the problems of H2O ( f)
as the basics of the whole parameters of the special Dimensionalisations of the general REsistance of running a electrical conductability circuit therough the whole singular H2O molecular waveform as being a simulation of static electricity..
3) data on the functions of volume as based on the H2O (p)= to the formats of the universal usability of plasma states where
values of their interactions are based on the force of the basics to define the altered volume by the Impulse of its weight in relations to the wave formats
= ANGULAR MOMENTUM (angle) / radius of the waveform
4) the values of the volume multiples as the specific value of the displacement of streaming the particle wave in a singular relations to the type 1,2,3 levels of H2O..