The great Nikola Tesla, despite his six-foot height, a talented engineer and scientist.
He had an extraordinary memory, and all or most of the calculations carried out in his remarkable mind.
So he did not leave records with the calculations.
For example, as he did Airconditioning, using hot and cold current.
It is known only that he did this by changing the parameters of impulses or the time of their actions.
Most of the seekers of free energy are searching for it by method of trial and error.
We - the participants of the forum will try to analyze the method to obtain the free energy from the point of view of the theoretical foundations of electrical engineering .
The participants of the forum who are not familiar with the higher mathematics and theoretical electro-technique , can contribute, through simple experiments.
If it is a 100% frequency of occurrence of the results of the experiment, it means we are on the right path.
It is important, as well, to experiments were carried out by a few people.
To do this you need a tester, oscilloscope and a soldering iron.
Need the same book of problems on the electro-technique with the decisions. A very useful book.
At the beginning of each Chapter provides a summary of the theory.
The Author ????? ?.?. You can download it from here.
We consider the problem of 8.58 out of a book of Shebes.
Here, during the action of a rectangular pulse, voltage and current have a positive sign.
At the end of the pulse is a power surge down the voltage and current have opposite signs.
If the voltage divided by current, then we obtain a negative resistance.
Of course, in the nature of the negative resistance does not happen.
A minus sign indicates that the energy of a resistor is returned to the environment.
Thus, we get a cold and a warm current.
Hot voltage, more cold in this example.
So, where is the free energy?
All the talk about resonance, although no one really knows how it arises.
We don't know, and, therefore, on this question the answer specialists on the airwaves.
Parallel resonance.
The formula of the energy in the inductor
The current in the inductor
Find energy in the form of voltage
The received power
For capacitor
Here the number of pi =3.14
Resonance frequency
Inductance in the case of resonance, if ?=const , then
Capacity in the case of resonance, if
Check the received formulas
Take inductance L=0.25*10-3 Hn and the frequency of F=10000 Hz
Resistors: R1=10 Ohm ? R2=10000 Ohm.VoltageUbc=1000 v
According to the formula (8) we define the required capacity of the capacitor.C=0.0253/0.25*10-3*100002=10-6 farads, or 1mF.
Resistance inductance and capacitance are equal XL=X?=2*3.14*10000*0.25*10-3=15.7 Ohm
The current in the inductor by the formula (2)
i2= Ubc/ XL=1000 / 15.7=63.7 A
According to the formula (4) we find the power in the circuit
P=0.0126*10002/ 0.25*10-3*10000=5000 w, ??? 5kW.
Strange, but the late don Smith argued that power is directly proportional to the square of the frequency.
Then in the example presented here, the power will be equal to 50 MWt
And to obtain a 5 kW, it will be enough voltage 10 volts. Very strange!
We will check it out.
Analyze the formula (4) ? (5)
Power inductor
For capacitor
For both formulas power is directly proportional to the square of the voltage.
For capacitor - power is directly proportional to the frequency and capacity.
The increase in the frequency - resonance inductance is reduced in proportion to the square of the frequency.
That according to the formula (4) is good.
What he had in mind Tesla, when he said that a large capacity and a little inductance - is that bad?
Perhaps he had in mind serial resonance.
Our working scheme.
Make a generator for car Tesla - it is very simple!
Consider the transitional processes taking place in parallel resonant circuit.
Operational impedance of the circuit is of the form:
Resistance of the circuit bc
:
The roots of the characteristic equation, we obtain, by equating to zero resistance of the circuit:
It is known that the roots of this equation can be: valid and different, valid and equal, and also complex.
Find a condition in which the roots will take the specified values.
The radicand equate to zero, we obtain
Here, if R > Rcr , we obtain the complex roots, and in terms of currents and voltages appear harmonic components (in the General case - sine wave).First, find the in operator form. Find expressions of currents and voltage Ubc
For Ubc
F1(p)=U/RC
F2(p)=p2+p/RC+1/LC
For a rectangular pulse U=const, we obtain the solution in the General form:
Here we notice that the decrease of the b , voltage Ubc increases.
Near the values of critical resistance, voltage increases to thousands of times.
This task with the decision is in the book of Shebes. You can download it here.
The task of 8.26 solved by the classical method, and 9.4 - operator.
It considers three options roots.
We are interested in the third variant.
In this variant of the R = 100 Ohm, L = 40 mH ? C = 5 mF.
Resonance frequency f = 331 Hz
Critical resistance Rcr= 44.721 Ohm
In the task at the specified parameters - the amplitude of the voltage Ubc equal to 125 volts.
If instead of R = 100 ?? take R = 50 Ohm, get the amplitude Ubc equal to 500 volts.
Lovers of strong sensations can take R = 44.73 Ohms, and get 12600 volts.
That in 100 times more input voltage and reactive energy circuit is increased to 10000 times.
Thus the phenomenon can be called energy resonance, or "resonance in resonance" by Tariel Kapanadze.
Energy resonance, or "resonance in resonance" by Tariel Kapanadze.
How to get energy out of the parallel-resonant circuit about this in the continuation.
Find i2(t)
Consider the case of real parameters.
f = 30000 Hz, L=5010-6 Henry, C = 0.5610-6 microfarads.
Rcr= 4.72 ohm, take R= 5 ohm.
XL=XC=9.4 ohm.
?=2?f=2?x30000=188500
The roots
Voltage Ubc
Current I2
In the initial phase of the voltageUbc is zero.
In the initial phase of the current I2 is small, which means that at the initial time the voltage and current are zero.
Despite their large amplitude, the energy of a coil and a capacitor can not pull out.
So, the square wave is not for us.
Let's try to apply to the circuit sinusoidal voltage pulse U = sin (?t + ?).
The formulas for the calculation of currents and voltages take the form:
Define the voltage Ubc
Consider the same example with the actual parameters.
f = 30000 Hz, L=5010-6 Henry, C = 0.56x10-6microfarads .
Rcr= 4.72ohm , take R= 5 ohm.
XL=XC=9.4 ohm.
?=2?f=2?x30000=188500
The roots
Resonance voltage has no effect.
At t = 0 the voltage Ubc zero.
Let's try to change the frequency of the pulses.
We take f = 25 Hz. After full-wave rectification get the pulse frequency f = 50 Hz.
The angular frequency ? = 314 1/s.
Acceptable results for Ubc and I2.
We could ask the question: how legitimate to assume that the pulse frequency is 50 Hz?
At start time is unknown - when interrupted and resumed the pulse, the more that the surge voltage in the circuit closes passage of the pulse power supply.
Remember that Tariel Kapanadze plant is switched with a time delay. Also, the device works with a delay getting cold energy coil UFOpolitics. It uses a special startup procedure, which we call "training_.
Similarly training battery. What do they write about it in Wikipedia? - Memory effect, also known as battery effect, lazy battery effect or battery memory, is an effect observed in nickel cadmium rechargeable batteries that causes them to hold less charge. It describes one very specific situation in which certain NiCd batteries gradually lose their maximum energy capacity if they are repeatedly recharged after being only partially discharged. The battery appears to "remember" the smaller capacity.[1] The source of the effect is changes in the characteristics of the underused active materials of the cell.[citation needed] The term is commonly misapplied to almost any case in which a battery appears to hold less charge than was expected.
Also have memory and chemicals.
Here is an excerpt from an article by G. Mills (http://www.sciteclibrary.ru/rus/catalog/pages/12290.html) Nature allows interaction (attraction and repulsion) only between identical particles, and this law is never violated. That is why there are nuggets of gold, copper, transparent crystals of feldspar, quartz, diamonds, precious stones, different methods of cleaning agents to remove impurities, chemical plants and steel industry. Given on page 2 of the reaction 2Mg + O2 = 2MgO + 292 kcal. not contrary to the law. The fact that the nuclei of atoms in neutron-neutron proton exist spiral, containing all the information about their transformations in the form of "phantom" atoms. For example, a magnesium atom "remembers" what it was before the sodium atom, and before that an inert gas - neon and fluorine and oxygen. That is actually an oxygen molecule interacts not with magnesium atoms, and with the same phantom oxygen in its core. [4] But in gaseous media identical particles do not know each other, if they move at different speeds and in different directions. This is why reflections of trees (objects) light rays do not interact with photons, filling the shell of air molecules. And just so we can clearly see objects at a distance. This means that the matter of sunlight and matter gases pass through the interstellar medium, without reflection, unaware of her presence.
General - that our environment has a memory. Excerpted from Valeria Andrus "BASIS neutron physics": This is a tree on the bank Khoper is without a crown. Several years ago, a strong wind broke it. But in the "Memory of Paul" tree remained in full view. Broken crown in the photo depicts not as sharply as the remainder of the trunk, but clearly.
At the other pictures taken on the same day, you can see the head sitting in a trench soldier.
A similar phenomenon is known for the famous Shroud of Turin, which, according to tradition, Jesus Christ was wrapped after his crucifixion, and that in the negative to print the image.
Let's return to our scheme.
Try to conduct training in the following manner for a few seconds, with a decrease in pulse - and increase their amplitude:
Finally obtain the pulse duration of a few nanoseconds.
In passing, we note that the energy of the coil and the capacitor are moving in the same direction.
You can try to signal with a 3-phase rectifier.
Here we use the upper part of the sinusoids.
Or this: a controlled 3 - phase rectifier, which will be better.
I wish you success in the experiments!
To be continued