In reply to's message of Sat, 11 Nov 2017 05:11:05

The Hydrino molecule is prolate ellipsoidal (football shaped) according to
Mills. The small radius is I think the same as the Hydrino radius, and as
already mentioned the separation distance between foci is sqrt(2) times that

For n=1/4 that gives a small radius of 0.132 Angstrom, which is less than the
0.3 Angstrom that Mills claims for the radius of the helium atom IIRC. 

Also, the Hydrino molecules are unlikely to all be the same size (i.e. not all
n=1/4), so some should leak faster than others.

>It was my understanding that the ash of the sun cell is the hydrino molecule, 
>which would be bigger thana  He atom which  in gaseous form is monatomic.
>From: Axil Axil <>
>Sent: Friday, November 10, 2017 4:37:20 PM
>To: vortex-l
>Subject: Re: [Vo]:suncell waste materials--hydrino
>The hydrino is essentially equivalent in size and electrical behavior to a 
>neutron. Neutrons could be confined using their magnetic properties.
>"Scientists have demonstrated for the first time that they can confine 
>neutrons, one of the basic particles of matter, in a three-dimensional 
>magnetic trap, an achievement that will help expand our knowledge of the 
>creation of matter during the Big Bang."
>On Fri, Nov 10, 2017 at 7:23 PM, 
><<>> wrote:
>In reply to<>'s 
>message of Fri, 10 Nov 2017 22:52:23
>>Answer: Yes, as a replacement for expensive, finite, and scarce helium.
>I doubt it. I think it would just leak through the skin of the balloon.
>Robin van Spaandonk

Robin van Spaandonk

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