FREE ENERGY DESIGN
sent to SIRIUS DISCLOSURE
date 31:05:2017
time, 13:39
Precognitive lucid dreaming and the ability to define sense data without the visual and hearing being activated in the brain while
the person dreams or is in a state between waking and dreaming.
by Henryk Szubinski
relaxed states and the point in the future as why it's probable sense data of displacement through sense hightened organic evolving
phenomena.
The basis of the sound and light as blind and deaf in relation to higher awarenes that may be filled with the intervals of free energy device functions ,will need some
cylinder of a vacuum that has the first sound absorbing circumferences as related to the small gravity effect + the light absorbtion of the next circumferences that define the anti gravity at the core where the light absorbance rings displace to. The sound and light absorbance may be any type of matter that does this. The results = free energy when light is input into the rings and when sound is input into the rings so that their 3 circumferences are free to do the absorbance and change with the 3 layers of rings to give the natural symbiotic result of them interacting.
cylinder of a vacuum that has the first sound absorbing circumferences as related to the small gravity effect + the light absorbtion of the next circumferences that define the anti gravity at the core where the light absorbance rings displace to. The sound and light absorbance may be any type of matter that does this. The results = free energy when light is input into the rings and when sound is input into the rings so that their 3 circumferences are free to do the absorbance and change with the 3 layers of rings to give the natural symbiotic result of them interacting.
Sending you data on the absorbtion of light and sound that the 3 ring sound absorbtion will do inside a vacuum tube with another 3 rings of light absorbtion in the vacuum and the vector sum as free energy.
Here's the light absorbtion:
We have previously learned that visible light waves consist of a continuous range of wavelengths or frequencies. When a light wave with a single frequency strikes an object, a number of things could happen. The light wave could be absorbed by the object, in which case its energy is converted to heat. The light wave could be reflected by the object. And the light wave could be transmitted by the object. Rarely however does just a single frequency of light strike an object. While it does happen, it is more usual that visible light of many frequencies or even all frequencies is incident towards the surface of objects. When this occurs, objects have a tendency to selectively absorb, reflect or transmit light certain frequencies. That is, one object might reflect green light while absorbing all other frequencies of visible light. Another object might selectively transmit blue light while absorbing all other frequencies of visible light. The manner in which visible light interacts with an object is dependent upon the frequency of the light and the nature of the atoms of the object. In this section of Lesson 2 we will discuss how and why light of certain frequencies can be selectively absorbed, reflected or transmitted.
from www.physicsclassroom.com
date 31:05:2017
time, 13:58
here's the SOUND ABSORBTION MATTE:
That's where the resonators come in. The first one is "impedance-matched" to the open air or whatever is surrounding the absorber - this provides a convenient route for sound waves to pass through. The second resonator is there to cancel out any scattered noise produced by the first, and it's this combination that achieves the 99.7 percent absorption level, no matter what the volume of the noise.
The new system is actually building on a previous experiment conducted last year by some of the same team. In that case, a thin absorbing material was used in conjunction with a hard reflecting layer, with the sound waves caught in the air between and silenced. The new approach follows a similar strategy, but uses a single layer of material.
The final report is available to read at Applied Physics Letters, though you'll need a strong head for physics to get through the details. "The net result is a perfect absorber that scatters no sound and that does not need a reflecting back wall... or another controlling wave," concludes the report. "Owing to its subwavelength dimensions, acoustic waves incident from any direction will be completely dissipated."
from www sciencealtert.com
date 31:05:2017
time,13:59
Yours Sincerily
Henryk Szubinski
date 31:05:2017
time, 13:59