Beamed energy is the technology of the past and the future. It could be based on sunlight, microwave, maser, x-ray, laser, photon and gamma rays.
The energy can be collected on earth and also in space. After it is collected its transformed or reflected and stored for later use. With so many different sources of energy available for storage that have been used in the distant past and expected to be used in the future one wonders why more attention hasn’t been paid to the evidence of beam energy from ancient times.
When one studies the physical description of the Great Pyramid at Giza, despite 4500 years of decay and vandalism, the evidence and quality of building, what it represents is quite evident.
The Great Pyramid at Giza shows evidence of the use of solar energy in ways that we can only imagine. There is physical evidence of a whole range of lost technologies.
Low earth orbits or (LEO) is referred to by scientists as “half way to the rest of the solar system.” NASA has represented that a micro satellite could be launched using laser beam technology into the LEO.
This beam would use 1 kg of energy. Fuel for this laser beam would be in two components. The reactant mass and the energy component. This fuel is supplied to the satellite or object being launched by a energy beam.
Beam energy propulsion by laser is only one form of energy available for launching and because of several obstacles is still in the experimental stages.
Laser beams are inefficient, they may be the most exotic but not the best. Lasers have a (-30%) efficiency rating. They perform poorly in less than perfect atmospheric conditions. A lazers efficiency in power rating drops
significantly with any optical interference. One form of optical interference would be cloud cover, another would be dust or dirt stirred up by a wind storm.
Because the laser beam is so dense there is a high occurrence of premature spontaneous ignition of the air. Therefore laser beam launch system technology is still in the experimental stage.
Laser beam energy for propulsion is only one form of beam launch technology. Microwave, maser, direct solar and x-rays are other methods of beam launch systems.
Beam x-ray launch systems may only be used with unmanned cargo flights. Microwave energy has better long term potential.
Maser energy is the frequency derived from microwaves and they perform at ninety percent efficiency.
Their transmission of power into the geostationary orbit (GEO) or the LEO would be unaffected by lite cloud cover, dust or mild pollution.
Ordinary microwaves also can reach the GEO and LEO at even higher efficiency than masers.
Data published by NASA indicates that lightcraft ( ionised air ) beamed energy laser thrust systems have the energy equivalent of 20 kw/kg of thrust at the craft.
However laser beam energy is inefficient, performs poorly and is unreliable.
In a previous chapter we discussed how Nikola Tesla had seven hundred patents to include alternating current, radio technology, x-ray’s, turbine power generation and wireless transfer of energy. In 1899 Nikola discovered “Terrestrial Stationary Waves.” This discovery essentially turned the earth into a giant dynamo. His first experiment with transfer of energy or electrical power in this case was from his Colorado laboratory on Cheyenne Mountain to a neighborhood in Colorado Springs twenty-five miles away where he energised two hundred street lights. It has also been reported that Tesla received interplanetary communication signals during his stay on Cheyenne Mountain.
He also discovered microwave technology. Focused low frequency sound cancels gravity! The term microwave means electromagnetic energy. Microwave transmissions are well suited for wireless transmission of signals with large bandwidth
Large bandwidth means high data speed. Microwave signals use dish antennas which allow for high power gain with excellent sensitivity with focussed and stable directional stability for transmission and receiving signals.
JP Morgan was so impressed with his discoveries that he financed his Long Island Wardenclyffe Laboratory in Shoreham New York where he erected a 187 foot tower with a 68 foot copper dome on top.
He designed a magnifying transmitter that was used to discharge high frequency transmissions . Using his discovery of terrestrial stationary waves and using the planet as a giant dynamo, Tesla believed he could use this facility for wireless transfer of power and communication signals into space.
If interplanetary transmissions were possible, London and Paris shouldn’t be a problem! Nikola Tesla intended to transmit both power and communication signals to any point on the globe.
The facility was demolished during world war one for national security reasons. However he lost his funding from J P Morgan when Morgan couldn’t figure out where to place the electrical meter to receive profit from this venture with Nikola Tesla.
Perhaps this is also a factor in the development of beam energy, where to put the electric meter?
NASA suggests that solar energy can be collected in space and using beam energy transfer to a earth station. This would thrill the tree huggers, clean and relaitvely inexpensive power to meet the domestic and commercial needs of the nation and perhaps the world!
NASA estimates it would take twenty to thirty space shuttle flights to deliver the appropriate equipment into orbit making the whole project extremely expensive.
There is currently research and development in progress to develop beam energy for use in launching satellite and equipment for this purpose on a experimental level.
The slow pace of developing beam energy technology which had been perfected by 1997 is that we haven’t designed a laser beam large enough to handle the sizable equipment needed in this endeavor.
To date NASA can only handle a 1 kg payload. When microwave, masers and x-rays have greater efficiency than lasers we will enter a new era of energy production.
When you take this technology and ancient technology from the Giza pyramid, Teolihuacan, amicrowavend and the Tiahuanaco pyramids, one wonders why we haven’t taken the history of ancient evidence into consideration.
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