Well some say my scale's were reading wrong,but it just made sense to me. We are transforming a (heavier than air)liquid into a (lighter than air)gas,so why wouldnt it get lighter?. I mean if we take a sphere(say 2 meters in diameter),and it is rigid enough that we can pull a decent vacuum in the sphere,and we then fill that with 2 parts hydrogen,and 1 part oxygen-->the sphere would weigh less than if it was full of just oxygen-right?. We then ignite the HHO inside that sphere,and the HHO then turns to water,and we once again have a vacuum in that sphere-right?. Now in sted of having a gas in there that is lighter than air,we have no gas,but we have a small amount of water. So would not the sphere now weigh more than it did at the start when it had only HHO gas in it?-and we have not changed the amount of mass in the sphere.
In the same frame of reference the conversion of liquid to gas creates a marginal change in weight on the system (the sealed hho vessel) due to a small specific gravitational acceleration differential between hho and air. In a different frame of reference, 100 meters below sea level the complete conversion of water to gas (or gas pressure displacement of water in the vessel ) creates a large change in relative weight due to the effects of buoyancy. Gravitational acceleration pulls the liquid water down harder around the outside of the vessel and therefore displaces the (vessel) gas upwards with significant force.. the entire ocean is forcing the vessel upwards.. fast.. http://www.engineeringtoolbox.com/specific-gravities-gases-d_334.htmlAir = 1 Hydrogen = 0.0696 Nitrogen 0.97 Oxygen = 1.1044 https://en.wikipedia.org/wiki/Wind"Wind is the flow of gases on a large scale. On the surface of the Earth, wind consists of the bulk movement of air. In outer space, solar wind is the movement of gases or charged particles from the sun through space, while planetary wind is the outgassing of light chemical elements from a planet's atmosphere into space. Winds are commonly classified by their spatial scale, their speed, the types of forces that cause them, the regions in which they occur, and their effect. The strongest observed winds on a planet in our solar system occur on Neptune and Saturn. Winds have various aspects, an important one being its velocity; another the density of the gas involved; another is the energy content or wind energy of a wind."Wind stirs air.. no wind in a hho vessel. Therefore the gas mixture will separate into specific gravities and not mix them up. Oxygen is the heaviest and naturally wants to be at the bottom, Nitrogen next and Hydrogen wants to sit on top. http://www.engineeringtoolbox.com/explosive-concentration-limits-d_423.htmlHydrogen LFL = 4 Hydrogen UFL = 75 Therefore only a 4% concentration of Hydrogen present in the heavy Oxygen sitting at the bottom is necessary for combustion to occur. Fresh Hydrogen continues to be produced for a significant period even "after" a cell stops being provided with electricity to stimulate the phase change reaction.. In other words due to buoyancy within the specific gravity field fresh Hydrogen is constantly moving upwards and crossing the liquid / gas boundary where the heavy Oxygen is sitting on top of the water. You are not within the detonation limits but you are within the flammability limits so combustion can take place.
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