Prof. Dr-lng. Konstantin Meyl



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Fig.7: DC measurement with circuit analyzer (jumper position: DC load)

 

The measurement on the receiver plate is conducted in the same way. It is recommended to 



work with two circuit analyzers at the same time. Then the calibration of the favourable 

amplitude and finding the correct resonant frequency is more easily. Typical voltage levels are 

400 mV on the receiver side, while the values are at the same time on the transmitter side are 

l00 mV's. (Fig. 7)

 

3.10 Interpretation of test results of the DC measurements



 

Naturally a simple DC measurement cannot replace a high frequency measurement, but for a 

tendency it is always good for. The current measurement is abandoned, but it can be assumed 

that a higher voltage at the same resistor will entail also a higher current (Ohm's law). If the 

DC voltage at the receiver is higher than the voltage at the transmitter, a so-called Over Unity 

effect must be present, and then the efficiency is over 100 %. An increase of the voltage 

around the factor 1.4 means already a duplication of power, since the percentage of the voltages 

is squarely responsible for the increase of power.

 

3.11 Conclusion



 

The transmitter modulates the surrounding field. The receiver absorbs beside the sent power 

scalar waves from the environment in the case of resonance. The transmission circuit proves 

the existence of free energy. Tesla possibly even measured that the received power continues 

to increase, if the distance to the transmitter is increased. Consistently and ambitiously he was. 

he planned a global power grid with scalar wave transmitters, which he called "Magnifying 

transmitters". For than reason Nikola Tesla is considered as the father of free energy.

 

 



-15-


-16-

 

3.12 Consequences



 

Here is the chance of a new and environmental compatible form of energy revealed to the 

experimenter, which is present constantly and everywhere and only waiting to be used.

 

3.13 Utilities



 

Demo kit, as in the experiment No. 1 with purely optical control, or two voltmeters (DC) or 

high frequency power measuring devices. Using the experimentation kit: Coil with middle 

wire length.

 



- 1 7 -  

4th experiment, subject: 

Superluminal Velocity

 

4.1



 

Experimentator: Prof. 

Dr.-Ing. Konstantin Meyl 

4.2


 

Place and date: 

D-78112 St. Georgen, 21st of June 2000 

4.3


 

To the status of physics of electromagnetic waves (according to Heinrich Hertz) 

From the equations of the field, the magnetomotive force and the induction law, Maxwell 

calculated 150 years ago a wave, which constantly spreads with the dimension "C" which is the 

speed of light. Albert Einstein postulated, after all measurements seemed to confirm this, C as 

the highest possible and permissible signal transmission speed. As long as only the wave, 

according to Hertz is considered, which is a lateral wave and swings transversal, this 

assumption is applicable. Since only this wave component is nowadays used, it is assumed that 

anywhere in the universe the light cannot be faster as 300,000 km/s. From the unproven 

experience set an imperative became, which is raised from some scientists in misjudging the 

connections into the rank of a law.

 

4.4 Expectation according to the scalar wave theory by Konstantin Meyl



 

The scalar wave, as longitudinal wave, only has a middle propagation speed, for which no limit 

exists. It can be faster, even substantially faster than the light. Antitype for this experiment is 

again Nikola Tesla, who had measured already more than 100 years ago superluminal velocity 

and over that, he made fun of Einstein, who was in his eyes an unrealistic theoretician. Tesla 

had sent from his experimental transmitter in Colorado Springs a scalar wave signal around the 

earth and had determined a standing wave resonance with 12 cycles per second. He wrote that 

he could regain the node of oscillation on the ground plate in his laboratory in case of 

resonance.

 

For the waves, according to Hertz, the Schumann-resonance is approx. 7.8 cycles per second. 



From the percentage of the resonance frequencies Tesla calculated the speed of the scalar wave 

emitted by him to 12/7.8 = 1,5. His wave, concludes Tesla, must therefore have spread with a 

factor 1,5 of the speed of light.

 

4.5 Experimental setup



 

The experimental setup is the same as in the last experiment. For a quantitative evaluation a 

frequency counter should be attached. The connection takes place at the waveform generator at 

the sockets "sync" for the synchronisation signal and at mass (GND = ground). The frequency 

counter included in delivery of the experimentation kit is via a third connection with 5 V 

operating voltage supplied. The display shows the frequency in MHz.

 

4.6 Carrying out the experiment



 

Possibly somebody has already noticed the fact that when tuning up at the frequency controller of 

the waveform generator the light emitting diodes on the receiver plate light up several times, albeit 

with different brightness. So far only the point with maximum brightness had been evaluated. The 

for scalar waves typical and in the first three experiments determined features arise here. It is 

particularly salient, that the transmission lamps fade out, while those on the receiver side light up, if 

resonance is adjusted.

 

If the frequency controller is further turned to the left (amplitude controller fully untwisted), 



another setting can be found, at which the receiver lamps shine. This time the transmitter is not

 



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