Originally posted by med.3012
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You make it unnecessary complicated. It's just a disruptive discharge which makes amplification of input energy. You take a battery, connect it to the switch via a large inductance coil.Then you connect a HV capacitor across switch and a low inductance coil in series with capacitor.Exactly like in Tesla patents.
For low frequency switching like 50 or 400 Hz you get a lot of oscillations of high power inside LC circuit. The only way to tap it is to connect antenna (or extra coil like Tesla named it) and create stationary waves. Here you can make as many generator coils as you want - the best way is to make them symmetrical so the Lenz effect is nullified. Tariel Kapanadze is just the antenna with symmetrical windings and current output which do not load the oscillations in tank circuit. Steven Mark TPU is just antenna with dipole shape and with a center output portion. That's why Smith talk so much about radio waves. All radio operators know that inside antenna there is a lot of power flowing on..Leave a comment:
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Originally posted by level View Post
yes i am guessing because i used a stopwatch to see the time, 0.1s is too small to be identified but i will do the test using a scope, it will be the proof even i myself don't need this.... but a lots is asking about this in other test the voltage can jump to 100V in less a second
when the capacitor is empty it act as a shorted circuit, because there's no electric field inside the capa the charging process is pretty fast, so any new charges need a lots of work to be accumulated in the capacitor banks But the same process made this problem can be used to make the charging operation more easily and this is why DS has a special made capacitor for one of his commercial model ( from Finland if i remember ).
Last edited by med.3012; 03-09-2016, 11:39 AM.Leave a comment:
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How did you measure the 0.1 seconds? It sounds like you are just taking a guess at the charging time? If that is the case, you can't do that. You can't estimate fractions of a second at all accurately. You would have to use a scope in one shot mode to capture the entire capacitor charge period to know with any accuracy how long the capacitor actually was charging. It is not likely that a person can estimate down to tenths of a second with any real accuracy. If you don't have a scope that has a one shot capture feature, you could use a much larger capacitor value so that you can time the charge time in seconds.Originally posted by med.3012 View Post
Also, 0.5A x 10V = 5 Watts.
You don't multiply the average input power by the time, as it is already an average input power.Last edited by level; 03-08-2016, 08:25 PM.Leave a comment:
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Originally posted by level View PostHello med. You didn't say what voltage the capacitor was charged up to after 5 seconds. That is very important. As an example, if a 100 uF capacitor is charged up to 200V, it is storing 2 Joules of energy. The average power needed to charge a 100 uF capacitor to 200V in 5 seconds is 2 Joules / 5 seconds = 0.4 Watts.
This is actually a fairly easy way to see how much power output you are getting from some particular setup. Time how long it takes to charge up a capacitor of some known value to some particular voltage, and you can use a capacitor stored energy calculator website like the following to calculate the energy stored in the capacitor. The energy stored in the capacitor in Joules divided by the number of seconds it takes to charge the capacitor is the average power that was delivered to the capacitor during the time period it was charging.
Capacitor Charge / Energy Calculator
http://www.electronics2000.co.uk/cal...calculator.php
The system is a non linear the same about the charging process it's no linear also, in other arrangement with 1200UF/450 the capacitor can achieve up to 50V in about 0.1 second, using the above calculator we have 1.5J if divided by 0.1s we have 15W this is the OUTPUT now in the INPUT side we have 0.5A X 10V X 0.1 =0.5 Watts .
the beauty in this device is you can also charge a low voltage capacitor very easily but since the voltage is low the power gained is decreased.Leave a comment:
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More facts about magnetic wave radiation:
- The gaussmeter measures a magnetic field
- The clamp meter measures amperes in the air (no wire inside the clamp meter)
- A magnet placed near the circuit starts to vibrate
Do you need more proof?
Those measurements mean one thing: the energy in the devices are wasted to the ambient in form of a magnetic wave.
A magnetic wave can be used to produce energy.Last edited by AetherScientist; 03-08-2016, 07:54 PM.Leave a comment:
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I have performed some tests with the gaussmeter and of course, devices radiates magnetic waves to the ambient and those waves can be tapped to perform useful work. The most important thing is that the production of those magnetic waves seems to not consume a single watt.
It's a fact, not a question.Leave a comment:
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Hello med. You didn't say what voltage the capacitor was charged up to after 5 seconds. That is very important. As an example, if a 100 uF capacitor is charged up to 200V, it is storing 2 Joules of energy. The average power needed to charge a 100 uF capacitor to 200V in 5 seconds is 2 Joules / 5 seconds = 0.4 Watts.Originally posted by med.3012 View PostHello level
i am still developing my device the same about the ideas, in some test the input was 0.5A 10V and from L2 i charged a capacitor of 100UF/450V in 5 second to light a 40W
you can also light a 3 X 100W incandescent bulbs using more capacitance but still the problem is technical, the time needed is still long to get the desired power, what i am trying to tell is that Over unity can be very easily shown using a resonating ETBC in a ferrite ring, more advanced scenario is possible also.
according the experiments the best way to use the earth ground in this system is when combined with a high inductance, in a step down transformer as example will be preferable, also in the node point when standing waves is available.
This is actually a fairly easy way to see how much power output you are getting from some particular setup. Time how long it takes to charge up a capacitor of some known value to some particular voltage, and you can use a capacitor stored energy calculator website like the following to calculate the energy stored in the capacitor. The energy stored in the capacitor in Joules divided by the number of seconds it takes to charge the capacitor is the average power that was delivered to the capacitor during the time period it was charging.
Capacitor Charge / Energy Calculator
http://www.electronics2000.co.uk/cal...calculator.php
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Charging capacitor takes time. In RLC system, the energy pass through the cap almost instantly because it's not stored in the cap, but you can use from it.Originally posted by med.3012 View PostLeave a comment:
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I think you posted the same picture in the other thread, right?Originally posted by med.3012 View Post
Big sparks.Leave a comment:
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I know, Smith is speaking about extracting energy from the ambient background. Call it ZPE, electron's spin, Dirac sea, etc...Originally posted by level View PostThe type of free energy that Don Smith was talking about was of course not this type of energy.
I have commented on my own experience from doing many experiments. Anyone is free to do their own experiments and find out for them self how things work. Leave a comment:
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