Post on 12-Jan-2015
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New Energy for an Ultramodern Vietnam
Part 3: The Science
June 2014 Saigon New Energy Group
To discuss this presentation and pose any questions you may have, please visit our website,
www.nangluongmoisaigon.org
Our eighth area of physics which we suspect will help you explore New Energy is called “electrostatics”
A typical electrostatic field
Now, we’ve already discussed electrogravitics and electrokinetics
…so if you are guessing that electrostatics is somehow related to them, you’d be correct!
According to Wikipedia,
Electrostatics is a branch of physics that deals with the phenomena and properties of stationary or slow-moving electric charges with no acceleration.
Electrostatic forces can be very strong
For example, the electrostatic attraction between an electron and a proton is around 36 orders of magnitude higher than their gravitational attraction
Nikola Tesla often called electrostatic energy by such names as “radiant energy” and “cosmic energy”
• Tesla believed that the Sun was the Earth’s source of this electrostatic energy
He considered the Sun to be a huge ball of positively-charged electricity, and the Earth to be
a smaller ball of negatively-charged electricity
Tesla’s conception of an “Electric Sun” bears a striking
resemblance to modern theories that stars may not be giant fusion reactors (as most textbooks teach) after all, but celestial bodies that are fundamentally electrical
in nature
Tesla pointed out that the sun’s positively-charged ions are stopped at the beginning of the
ionosphere, about 85km above the Earth’s surface
This creates a large space of about 85km between the surface of the Earth and the beginning of the ionosphere in which there is a very large voltage
differential (around 360,000 volts)
In this sense, you can consider the 85km of space between the Earth’s surface and the ionosphere to be like a big capacitor filled
with electricity
Tesla considered all this electricity to be “trapped energy” which was electrostatic in nature
The question he posed was, “How to exploit all this electricity that appears for us at no cost every day?”
Tesla thought this was a very attractive source of electricity, because the Sun naturally replenishes
it 24/7 – as long as the Sun exists, it is an inexhaustible resource
Until the Sun dies out in 2.8 billion years, that is!
Tesla’s first approach to tap the electrostatic energy of the Earth looked like this:
• The basic concept was to create an energy sink, and then to make the sink oscillate
• Tesla worked on this system in the 1890s
This device worked by erecting a high antenna
The antenna was connected to one side of a capacitor, while the other side of the capacitor was grounded in the earth
The potential difference between the atmosphere and the ground would cause the capacitor to charge
An switching device was then connected across the capacitor to discharge it at regular
intervals, creating a usable oscillating electrical output
Through trial and error, it was found that bifilar wound coils greatly increased the
amount of power that could be generated by the system
But – and this was one of Tesla’s biggest insights on the system – the end of the first wire had to be
connected to the beginning of the second wire
Tesla found that when using bifilar wire coil connected in this way, the capacitor would be
able to tap the Zero Point Field
It’s also been found that interweaving aluminum and bismuth with the coils can help
the system generate more power
In the late 1920s and through the 1930s, T. Henry Moray was using a similar method of
creating ionic oscillation
And in fact, Moray’s “radiant energy system” has been the subject of study at Southern Methodist
University in the state of Texas recently
If any of you would like to conduct your own experiments in New Energy, we are sure that the nice
folks at SMU would really enjoy talking with you
Prior to Moray’s experiments, at Wardenclyffe, New York, Tesla created an improved
electrostatic power facility in 1901-1917
This was the power system that banker J.P. Morgan famously shut down because he was
worried it would provide virtually unlimited
electricity to the whole world at nearly no cost
Prior to working at Wardenclyffe, Tesla had built an earlier power generator at Colorado Springs
• This facility produced tens of megavolts of power
• An accident occurred which shut down the local power company
How did Wardenclyffe work?
• Tesla called Wardenclyffe a “magnifying transmitter” of electrostatic power
• An even earlier name he gave it was the “self-regenerative resonant transformer”
• Historians of science believe that it both generated, as well as transmitted, electricity
• Tesla designed it to also transmit telephone & data messages
Totally, the Wardenclyffe facility used 3 circuits
• A primary circuit• And 2 secondary circuits• These circuits worked
together to pull energy from the ionoshere, then transmit part of it and loop the rest back into the system
• The size of the gap between the 2 “rectifier – corona – plasma” balls could be adjusted
• Adjusting the gap gets the system resonating at the working frequency
Remember, “resonance” is a key aspect of working with New or “Zero Point” Energy
This is what resonance can sound like in your lab:
At around 500KV, bluish electron jets would be emitted from the top of the capacitance coils
Be careful when experimenting with technology like this!
Even after you turn the power off, oscillations will continue in the coils for quite a while.
Don’t touch them until they are discharged.
A flat spiral coil at the top of the tower created a “vortex” effect which helped to draw energy
down from high in the ionosphere
In a moment, we’ll see how Tesla might have stumbled onto scientific knowledge that was
known to ancient pyramid builders
• The top secondary circuit prevents electrical discharge into the air
• This allows the voltage of the entire system to rise well up to around 3 megavolts
Tesla used a combination of flat spiral, solenoid, and conical coils at Wardenclyffe• Because of the high voltages, he needed a
very good dielectric and many engineers have found mica to be best for this purpose
Mica as a dielectric
Tesla’s favoring of mica is interesting to me as a historian because many ancient cultures mixed mica with ceramic clay to form
“laminar crystal”
This laminar crystal (containing mica) was thought to attract and store energy naturally present in the cosmos
Above 3 megavolts, Tesla’s mica-insulated system would discharge electrons into the atmosphere…
In order to avoid this waste, Tesla
diverted the electricity from the top of the tower into the
ground
This, in essence, produced a controlled lightning strike into the ground which caused a wave to
propagate to the antipode (off the southwestern coast of Australia) and then reverberate back to
the power station in New York
As this wave was coming back to New York from the other side of the world, another controlled
lightning strike was coming down the tower, and this created a standing wave within the Earth
By arranging at a separate location a grounded Tesla coil receiver tuned to the
same resonant frequency as the transmitter, this would create a flow of electric current
through the earth between the two points
“Tuning in” to Wardenclyffe’s electrical current was like tuning a radio to play a particular station
Tesla planned to use these standing waves within the Earth to study various problems of geology
And to enable telephone conversations around the globe without transoceanic
cables or satellites
But, as some have pointed out, this technology had the possibility of being used
for military purposes – for example, to create earthquakes in an enemy country
Tesla was able to do all of this without burning fuel, creating nuclear reactions, or
harnessing wind or the sun’s rays
Although we might say that this electrostatic “radiant” energy was “solar” in the sense
that the sun helped create it
Some scientists have speculated that such an electrostatic system could also be used for flight within the Earth’s atmosphere, and
for space travel
If you placed a similar power system on an aircraft and then allowed the electrostatic
energy to be discharged into the air, you would just need to point the discharge toward the
ground in order to go up
For space travel, you could point it toward the solar wind in order to travel toward the
outer planets of the solar system
In the field of history, we’ve started to suspect over the last decade that one purpose of the
Egyptian pyramids was to produce energy
Now, there’s been a lot of debate about whether this was electrical energy or some other form of energy
But the evidence is mounting that the ancient pyramids in Egypt were used, at least in part, as power generators
And in Austria, an inventor has found a way to harvest electrostatic energy from a pyramid
Thomas Trawoger’s pyramid uses a copper capacitor, an antenna, a magnet,
and a coil to power a simple fan
Let’s see how it works
Interestingly, Trawoger found that his pyramid must be aligned with the North-
South magnetic pole in order to work
That caught our attention because the Egyptian pyramids are also oriented
quite precisely along a North-South axis
And we’d be very surprised if that is merely a coincidence
Probably, this has something to do with aligning the Earth’s magnetic field with that of the pyramid
Could you build a Trawoger pyramid electrical generator at your university?
Of course you could.Talk about a cool science fair project.
SNEG can help you obtain technical schematics and practical advice for building this device and many others.
One of our favorite New Energy inventions is the electrostatically-powered car of Filipino
inventor Ismael Aviso
Recently, the Philippine Department of Energy certified that the electrostatic system
Aviso devised to power his test car was running at 133% efficiency
For those of you who might be saying “But I was always taught that overunity is
impossible,” please remember what we discussed earlier in this seminar –
That Conservation of Energy only applies in a closed system.
As Mike Waters, Paul LaViolette, and other point out, however, our universe is an open,
virtually infinite system.
It’s on this basis that you can get efficiencies well over 100%.
In the field of New Energy, we have seen efficiencies of 2000% and higher.
Welcome to the future!
In Aviso’s design, the car uses a 12-volt battery which is kept constantly charged by
electrostatic energy gathered from the environment
Aviso uses an antenna (similar to Tesla’s design) to draw the electrostatic energy into the battery
The car antenna receives energy in the range of 750MHz to 1.2GHz
• Like other electrostatic systems, Aviso is using power that is high-voltage but low-impedance
• This is an example of using electrostatic energy to supply DC power
But the key thing to remember here is that Aviso’s car is running without any fuel and without paying for electricity.
Imagine driving anywhere, as far as you like… for free.
Soon we will have it – but we need you to help make it a reality.
That about wraps it up for our discussion of electrostatics. Today we’ve seen how we can use electrostatics for all sorts of cool
things including:
• Generating and transmitting electricity (wirelessly if we choose)
• Running a car without fuel• Reviving ancient technologies such as pyramid
power• Possibly, aviation and space travel