Chromatolytes

[AntonioLao]

The function of some electrolytes, for example potassium nitrate (KNO3) is to maintain electrical neutrality in proximity of the operational electrodes. On the other hand, the quantum vacuum exists at where and when states of almost absolute electrical neutrality save for quantum fluctuations of virtual electrically charged electrons and positrons. Similarly, the quantum vacuum also contains infinity of virtual colorly charged quarks and gluons or simply quarks since gluons can be considered as abstract properties of directional invariance. It is conceivable that color changing chromatolytes with similar functions as chemical electrolytes exist within the quantum vacuum. The role of these chromatolytes is to maintain color neutrality in proximity of all virtual colorless hadrons: virtual colorless baryons and virtual colorless mesons.

The working principle of chemical electrolytes requires two electrodes: the cathode (negative) and the anode (positive). Since there are three basic color charges: red (R), green (G), and blue (B), analogously there must be three chromatodes: rode, gode, and bode. Therefore, a cold fusion is a multi-step process which would then require five odes: the cathode, the anode, the rode, the gode, and the bode. The first two is needed to separate water molecules into hydrogen atoms and oxygen atoms while the other three odes function as changing a proton into a neutron at the quark color domain interactions.

[mkirkpatrick]

The function of some electrolytes, for example potassium nitrate (KNO3) is to maintain electrical neutrality in proximity of the operational electrodes. On the other hand, the quantum vacuum exists at where and when states of almost absolute electrical neutrality save for quantum fluctuations of virtual electrically charged electrons and positrons. Similarly, the quantum vacuum also contains infinity of virtual colorly charged quarks and gluons or simply quarks since gluons can be considered as abstract properties of directional invariance. It is conceivable that color changing chromatolytes with similar functions as chemical electrolytes exist within the quantum vacuum. The role of these chromatolytes is to maintain color neutrality in proximity of all virtual colorless hadrons: virtual colorless baryons and virtual colorless mesons.

The working principle of chemical electrolytes requires two electrodes: the cathode (negative) and the anode (positive). Since there are three basic color charges: red (R), green (G), and blue (B), analogously there must be three chromatodes: rode, gode, and bode. Therefore, a cold fusion is a multi-step process which would then require five odes: the cathode, the anode, the rode, the gode, and the bode. The first two is needed to separate water molecules into hydrogen atoms and oxygen atoms while the other three odes function as changing a proton into a neutron at the quark color domain interactions.

This sounds very complex to me.

regards michael.

[AntonioLao]

I think everybody has the tendency to expect the process of cold fusion to be simple.

[mkirkpatrick]

I think everybody has the tendency to expect the process of cold fusion to be simple.

Prehaps though it is?



regards michael.

[AntonioLao]

If I can bodely rode the gode then I got a cold fusion reaction.

[mkirkpatrick]

If I can bodely rode the gode then I got a cold fusion reaction.

Then I shall write an ode for your node!In the next episode!




regards michael.

[AntonioLao]

Then its sequence would follow strophe to antistrophe then epode.

[mkirkpatrick]

Then its sequence would follow strophe to antistrophe then epode.

That sounds about right,I think!




regards michael.

[AntonioLao]

keep me informed or updated at every permutation that you are going through. Incidentally, for 3 distinct objects the maximum number of permutations is 6 or 3 factorial, 3!

[mkirkpatrick]

keep me informed or updated at every permutation that you are going through. Incidentally, for 3 distinct objects the maximum number of permutations is 6 or 3 factorial, 3!

Thats a tall order!



regards michael.