magnetohydrodynamics

[AntonioLao]

Plasma turbulence can be described by magnetohydrodynamics (MHD). As single fluid of ionized gas, plasma has no net electric charge since numbers of positive and negative are nearly equal even though individual masses are not. If the excess mass ratio is greater than 1836 then the plasma fluid enters a state of superfluidity and the onset of quantum turbulence is eminent. The four types of hot fusion reactions are: (1) D+T®He+n+energy, (2) D+He®He+p+energy, (3) D+D®He+n+energy, (4) D+D®T+p+energy. It is noted that all four are inherently superfluids and the reactants are mixture of Fermi fluids and Bose fluids. On the other hand, cold fusion reaction is given by D+D®He+energy. In this case, both reactant and product are Bose fluids. Furthermore, the reaction is radiationless. It is known that the MHD equations of two fluids plasma are much more difficult to solve than single fluid. All things considered from MHD standpoint, it is more promising to continue research on the D+D®He+energy reaction of cold fusion.

D is deuterium or component of heavy water D2O (http://en.wikipedia.org/wiki/Heavy_water) replacing hydrogen, see http://en.wikipedia.org/wiki/Deuterium
He is helium 4 isotope, see http://en.wikipedia.org/wiki/Helium-4
He is helium 3 isotope, see http://en.wikipedia.org/wiki/Helium-3
T is tritium, isotope of hydrogen, see http://en.wikipedia.org/wiki/Tritium
n is neutron, see http://en.wikipedia.org/wiki/Neutron
p is proton, see http://en.wikipedia.org/wiki/Proton

[mkirkpatrick]

Plasma turbulence can be described by magnetohydrodynamics (MHD). As single fluid of ionized gas, plasma has no net electric charge since numbers of positive and negative are nearly equal even though individual masses are not. If the excess mass ratio is greater than 1836 then the plasma fluid enters a state of superfluidity and the onset of quantum turbulence is eminent. The four types of hot fusion reactions are: (1) D+T®He+n+energy, (2) D+He®He+p+energy, (3) D+D®He+n+energy, (4) D+D®T+p+energy. It is noted that all four are inherently superfluids and the reactants are mixture of Fermi fluids and Bose fluids. On the other hand, cold fusion reaction is given by D+D®He+energy. In this case, both reactant and product are Bose fluids. Furthermore, the reaction is radiationless. It is known that the MHD equations of two fluids plasma are much more difficult to solve than single fluid. All things considered from MHD standpoint, it is more promising to continue research on the D+D®He+energy reaction of cold fusion.

D is deuterium or component of heavy water D2O (http://en.wikipedia.org/wiki/Heavy_water) replacing hydrogen, see http://en.wikipedia.org/wiki/Deuterium
He is helium 4 isotope, see http://en.wikipedia.org/wiki/Helium-4
He is helium 3 isotope, see http://en.wikipedia.org/wiki/Helium-3
T is tritium, isotope of hydrogen, see http://en.wikipedia.org/wiki/Tritium
n is neutron, see http://en.wikipedia.org/wiki/Neutron
p is proton, see http://en.wikipedia.org/wiki/Proton

It is very promising that the search for cold fusion continues in earnest.

regards michael.

[AntonioLao]

It is very promising that the search for cold fusion continues in earnest.

My confidence is boosted looking at cold fusion from this new perspective of quantum turbulence, Fermi liquid and Bose liquid.

[mkirkpatrick]

My confidence is boosted looking at cold fusion from this new perspective of quantum turbulence, Fermi liquid and Bose liquid.

That is really great,your dream is one step closer.



regards michael.

[AntonioLao]

That is really great,your dream is one step closer.

Thanks to you and everyone at TOEquest. Without this forum, it would not have been for me to arrive at this stage of research. There still a lot of work to be done.

[mkirkpatrick]

Thanks to you and everyone at TOEquest. Without this forum, it would not have been for me to arrive at this stage of research. There still a lot of work to be done.

Thats great news Antonio,we,I will help you all we can,just holler!




regards michael.