On Sept 11 ’17 in India, a two-hundred and ten meter copper wire was raised upwards one hundred meters vertically into the air (a mix of gasses) by a weather balloon filled with hydrogen gas to provide proof for the theory that tall metal masts and structures can be used to harvest electricity from the atmosphere.
This experiment demonstrated that by placing the wire up in the air a significant potential difference was generated without the requirement of any electromotive force, (the voltage or potential difference developed by any source of electrical energy such as a battery or dynamo).
Potential difference , or voltage, is the difference in electric potential energy between two points, in this case the top and bottom of the electrical conduit; the copper wire. Voltage is denoted by ∆V and has units of volts, or joules per Coulomb.
The electric potential energy of the electric charge and current accumulated in the wire was demonstrably significant due to its placement in the electric field that keeps contained the gasses of the atmosphere.
One end of the wire raised 100m in the air and the other end of the wire coiled around a plastic washing basket. Plastic is a poor electrical conductor, unlike copper, but a good insulator. The basket raised the wire off of the charged body of the earth. Significant amounts of electricity were produced, statically – as an accumulation of charge, and dynamically – as a current.
An Electromagnetic radiation detector was used to measure the physical electromagnetic field, propagating (radiating) from the electrically charged wire carrying electromagnetic radiant energy.
The ‘current’ and ‘charge’ detector or ‘electromagnetic radiation’ detector gave readings for the electric charge and current flowing through the wire at a variable rate in the standard international (SI) unit of electric field (E-field); the region around the charged object (the wire) measured in the volts per meter (V/m) and the standard international unit (SI) for a magnetic field arising from the motion of electric charges (current) measured in “microtesla” (µT).
The electromagnetic radiation coming from the wire raised 100m into the air was enough to exceed the maximum range of the electromagnetic radiation detector (1999V/m and 19.99µT).
The formula for Watts is Volts times Amperes: 2000V x 2.78A = 5564W
The formula for Volts is Watts divided by Amperes: 5564 / 2.78 = 2000V
The formula for Amperes is Watts divided by Volts. 5564 / 2000 = 2.78A
3D HD VR: Atmospheric Electricity Harvesting Experiment in memory of my favourite freemartin
volt (abstract noun): the SI unit of electromotive force, the difference of potential that would carry one ampere of current against one ohm resistance.
watt (abstract noun): the SI unit of power, equivalent to one joule per second (1W = 1J / 1s), corresponding to the rate of consumption of energy in an electric circuit where the potential difference is one volt and the current one ampere.
ampere (abstract noun): a unit of electric current equal to a flow of one coulomb per second.
coulomb (abstract noun) the SI unit of electric charge, equal to the quantity of electricity conveyed in one second by a current of one ampere.
joule (abstract noun) equals one watt-second—i.e., the energy released in one second by a current of one ampere through a resistance of one ohm.
resistance is an electrical quantity that measures how the device or material reduces the electric current flow through it. The resistance is measured in units of ohms (Ω). If we make an analogy to water flow in pipes, the resistance is bigger when the pipe is thinner, so the water flow is decreased.
second (abstract noun) At its 13th official meeting in 1967, the committee adopted the following definition: “The second is the duration of 9,192,631,770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the caesium-133 atom.”
The ohm is defined as an electrical resistance between two points of a conductor when a constant potential difference of one volt, applied to these points, produces in the conductor a current of one ampere, the conductor not being the seat of any electromotive force.
Length of the Wire: 210meters
Wire Cross Area: 0.5024×10^-6 meters squared
Resistivity: 1.72×10^-8 ohms per meter
Resistance: 718.94904458599 Ohms
From the experiment it is conclusive that electricity can be harvested from the atmosphere without the requirement of any electromotive force such as a battery or dynamo and in fact has been all along from transmission wires, transmission towers, sky-scrapers, cable-cars, Ferris-wheels, flagpoles and other tall structures prominently featuring electrically conductive materials raised up high in the air.
FREE ENERGY (Aaron Dover) Atmospheric Electricity HIGH VOLTAGE (PROOF!)
Light is by definition electromagnetism and magnetism is an electrical effect.
GOD is Generation and Disintegration of that one life-force that energy that Oscillates between the two extremities.
Thank GOD for Aaron Dover.