Oops – a bit of dyslexia there – the hydrino hydride would be negatively charged from the start - and thus appearing alkaline while stable.
Heck… maybe that explains the alkalinity of the oceans… IOW – the negatively charged dense hydrogen from the solar corona causes large scale alkalinity as it reaches earth and collects in the ocean. From: Andrew Meulenberg ➢ I am presently writing a paper on the transition from a femto-H atom to a neutron (as a proton with an occupied deeper-electron orbit), so my responding to your comments has been useful in my thinking. Thank you. Andrew Another related topic to this is the ubiquitous nature of hydronium, and whether dense hydrogen can be a natural component of our oceans.. At any given moment in all the worlds oceans, water is technically not H2O but instead consists of a known percentage of hydronium, even though the pH of the ocean itself is alkaline. This should not be possible in theory since the alkalinity should cancel out the positive charge immediately. One wonders if Mills conception of “hydrino hydride” or a version of it - would explain this situation since hydronium in the form of a stable anion would be both dense and charged with greater than expected lifetime as an ion in solution. This also offers and explanation of where all the hydrinos (which are made in the solar corona and transported to earth via the solar wind) accumulate. Jones
