Papalashvili Dimitri Georgia, Tbilisi, 2459226 E-mail: d170347@gmail.com

` Getting free energy scientifically Part-1 Part-2 `

Here we see that the energy consumption in the resistor does not depend on its size.

Therefore, rectangular pulses are not a very good choice to obtain the free energy.

Please note that the collector ( condenser or coil ) turns on and off with two keys!

The top picture of the capacitor is charged from the generator linearly changing voltage.

In the Handbook to the transition process Ginzburg find a formula describing this process.

Here T is the duration of a pulse - t

The longer the pulse, the capacitor is charged slower and less current.

Assume t

Then the formula of current and voltage will become:

Power in the resistor

Integrate and define the energy in the resistor.

Finally, we obtain

Example: A = 50 , R = 4 ohms , C = 10 microfarads , U = 1000 V

Pulse duration tp = kRC = 50x4x10

If you take the time to discharge the capacitor 10

The frequency will be 330 hertz. Usable capacity will be equal 0.5CU

Energy consumption in the resistor is about 25 times less t.e.60 watts.

However too early to rejoice . Generator line voltage - a rather complicated structure .

Unpredictably internal resistance , which should be small.

Tom Bearden proposes to use the step voltage of 100 - 300 steps .

Difficult to make a powerful generator of step voltage.

Analyze the use of household electrical network in order to generate free energy.

Fortunately, its internal resistance is scanty .

We use this gift of nature to simplify the calculation.

There is violation of causality. In fact, this link is not broken, if not ignore the actual component in expressions of voltage and current.

The actual component can be called a «longitudinal», «move», «polarization» and, finally, information.

The actual component does not see its way active resistance and, therefore, does not work.

It can not be measured by conventional instruments. It can be detected by indirect attributes when exposed to a plate of a capacitor or an inductor .

At the initial time , when t = 0 , the longitudinal component of the voltage has a maximum value because Cos(ωt)=1.

Physically, the process that occurs in the capacitor can be represented as : the polarization of one plate to another plate there is a reaction in the form of counter poured into a chain of energetic material at an angle of 90 °

In both plates , the potential becomes equal and so the potential difference or voltage across the capacitor is zero.

Since the energetic material is poured into the circuit at an angle of 90 degrees , this process is a cross that expressed the imaginary component of the current .

Thus we conclude that the transverse current in the circuit - it is the penetration and dispersion of the energetic material in the circuit at an angle of 90 degrees.

In fact, wire, coils and resistors "breathe" ether which penetrates them.

Therefore, the magnetic field is formed around the wires.

However, if we assume for the acting values of voltage and current, we obtain 0.5CU

Energy ratio capacitors and resistors will X

If the ratio is large, such as 25, then it is necessary to charge the capacitor by applying voltage from 0 to 90

We define the optimal load.

Capacitor discharge duration equal to the duration of charging

t1 = t2 =0.005 sec. t1 = KRC, here К ≥ 50

load Resistance R

For R = 2 ohms, C = 50 microfarads R

We found that the charging of the capacitor is to remove the potential from one plate.

Voltage consists of two components: longitudinal and transverse, back to the rectangular pulse.

In the theoretical tesla-technique Vladimir Utkin in a diagram attempts to remove unwanted potential with one of the plates.

http://tarielkapanadze.ru/kelly5-1.htm#kond1

Comment: the time between S1 and S2, can be very short.

Note: This is an illustration of the so-called zero-point energy.

After the analysis and practical test we will return to this issue.

If the capacitor - the king, the inductor - Queen. Here also get rid of the transition process, taking the initial phase current equal to zero.

Instead of the second switch diode used.

explanation schema read on.

The energy per pulse is equal to W

Power Q

Ratio energy of the coil and the resistor will X

If the ratio is large, such as 25, it is necessary to charge the coil, including mains voltage from 90

There's also look at how the king and queen in tandem - in resonance or without resonance.