RE: Explaining the 'magical' properties of HHO, Browns Gas, MagnaGas & Resonant Hydrogen Plasma & More
There are certainly some interesting hypothesis presented and great ideas for experiments. Though I do feel there are some assumptions being made in this blog, I thank you for sharing your perspective. Excited to see what nature has to say about all this. I think it also important to note the work of John Kanzius.
The interesting thing about his work is like you say, he uses RF in a Microwave Band.
** 1.** A generator emits 14-megahertz radio waves.
2 . The waves bombard a solution of regular table salt and water.
Exactly what happens next remains a mystery, but one theory posits that the sodium chloride may weaken the bonds between the strong>oxygen** and hydrogen atoms in water. Radio waves break apart the bonds and liberate flammable hydrogen gas molecules.
A match ignites the hydrogen, generating an intense flame.
The resulting heat powers a simple engine.
Look forward to learning more about Suhas's Reactor design. Keep up the great work my friend.
As said, this blog is for discussion, I am trying to explain the same observations observed by multiple independent parties and inviting comment.
I am aware of this work.
The 'excess' in all these systems has to come from somewhere, either from binding energy changes, disintegration of nucleons or from the aether.... OR something I call it the 'dyson air multiplier effect' these systems may entrain more electrons from the environment (which could include the aether) to build charge clusters which will be able to yield energy and break chemical and elemental bonds.
De-ionised water will not work, and that is why you have to have the salt in there - you have to be able to have a way to capture the charge clusters.
There is another interesting concept I have for how charge clusters lead to 'transmutation' though I will address that in an entirely separate blog.
Why wouldn't there be at least some binding to DI water simply due to its normal polarization? If it's pure charge behavior, that'd be enough- there's got to be something else involved having to do with bulk conductivity.