A more sophisticated discussion of our theory deals with applying Gauss’ Law on hydrogen.

Gauss’ Law states there are no monopoles in magnetism, only dipoles. It is well known that liquid water forms hydrogen bonds with other water molecules in order to remain in a liquid solution. Hydrogen has polar properties that opens up a new configuration, one in which a hydrogen can be bound to another hydrogen and an oxygen. Upon exposure to an electric current, the electronegative strength of the oxygen atom is weakened, allowing a hydrogen atom to dislodge and magnetically bond to the other hydrogen atom that is strengthened by the magnetic field.

Hence, the electric and magnetic forces made possible a shift of a hydrogen from H―O―H to O―H―H creating a diatomic hydrogen molecule that is single bonded to atomic oxygen. As the exposed oxygen is a reactive site on the gas molecule an appropriate name is "hydroxyhydrogen".     This hydroxyhydrogen structure predicts that the oxygen is now active and can oxidize metals. It predicts that in the unburned gaseous state, the increased negative charge causes greater spacing among the gas molecules causing stability, a lower boiling point, a lower freezing point, a higher vapor pressure, and the gas is lighter than air.

Now you have some idea as to what a glass of water can do!!