Nitrogen, Gas Superresistor or Supercapacitor (Electrical Engineering)

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H2O 'Gas' Resistor

A gas resistor is a resistor which is being posed for very high rated power. Power transmission would find the H2O gas resistor less of a heat loss component than metal.

Contrary to popular belief in physics, the medium of spacetime is a perfect conductor. Space does not obstruct or insulate the path of electromagnetic radiation. It allows all of the radiation through, or it conducts radiation, so it will do the same for the electric field (electrons). It would operate similarly to a cathode ray tube. The chamber would be a cylinder of thickened, high-density plexiglass or pressure-resistant, crystalised-soda glass. The pressured chamber would be a cylinder of the glass (higher pressure) or faux glass (lower pressure). At the flat ends of the cylinder would be a cathode and an anode at the other end.

• Both electrodes should be made from carbide - high level, metallic analogue carbon (low lustre) for the cathode and lower level, metallic analogue carbon (high lustre) for the anode

• The cathode should be completely flat.

• The anode must feature or come to a strong and very narrow metal, rod, point source of the charge carrier

• Hydrogen gas donates electrons with parity - depending on what other chemical is in its environment. It is the more reactive oxygen (versus hydrogen) in water which forms the net ion H+ or the true ion H2O+ ('Hydracid' or Hydrated Acid) when the H2O molecule emits or donates an electron. Similarly, H2O forms H- as H2O- (Hydroxide or 'Hydrated Oxide') when it receives or absorbs an electron. That is what has been the theoretical hydroxide molecule. The previously understood hydroxide molecule is inherently too unstable to exist, at length. The Van Der Waals forces of the close proximity between the molecules, in the presence of oxygen gas and heat, is what leads to the formation of the acid and base.

• Without any salts or oxygen it, water is has insulating or dielectric properties. As a gas, when too diffuse to condense to a vapour, the water molecule may be the best suited dielectric to add resistance to the partial-vacuum cylinder. The Van Der Waals forces would be broken by the low pressure - offering more volume-density for Brownian motion to occur, at room temperature, with greater ease than at regular water vapour partial (pure) pressure at room temperature. That mean that the resistance will increase as more water gas is added. The safest amount to avoid water vapour would half way between vacuum and dew point. For greater resistance, lengthen the gas tube.

  
  

  If resistance approaches infinity, the device becomes a supercapacitor.

Above megawatt power will have never looked better than when it is served by the H2O resister.

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