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Stanley Meyer => Stan Meyers system 2 => Topic started by: Steve on November 29, 2010, 13:54:35 pm

Title: Resonant cavity
Post by: Login to see usernames on November 29, 2010, 13:54:35 pm
Take a look on how to fracture water....

Title: Re: Resonant cavity
Post by: Login to see usernames on November 30, 2010, 02:11:18 am
Nice find steve  8)
Title: Re: Resonant cavity
Post by: Login to see usernames on May 07, 2011, 11:24:10 am
Hi folks,


Here another mindfart on the resonance system of Meyer.
Have a look at at the picture of his tubeset Stanley used.
Why is it build with such a strange cut at the bottum and top?

My 1 cent on this is simple.
A small tubeset creates a milkey water filled with HHO.
Because the base state is water and HHO is a gassious state, you will get gas pressure.
1800 to 1 ratio, if i am correct.
We all seen the streams of HHO coming out of a set of tubes.

Did you people ever played a flute?
How does such a musicinstrument works?
Have you seen the mouth piece of such instruments?

Now go back to Stans tubes......
Any similarities?

Add the Meyer waveform in this mind set.
Its made with a downtime, to get the water back in his tubeset......

So, he build a flute with a thiny inlet at the bottum so pressure must go out at the top.
When all water has gone, he must stop the power to the tubes and let the water back in.
Power on at sertain frequency and the tubes act back as flutes, resonate at certain frequency and so on...

What are you people thoughts on this?

Steve

Title: Re: Resonant cavity
Post by: Login to see usernames on May 07, 2011, 16:10:08 pm
the only way we will know steve is by making it and trying it out.. them slots may not be that complex.. they may not serve any other purpose other then to let let water continously pass through the center while aiding in gas ejection but also providing more water..

then again stan  could have a plug in the center of the center tube and all water may be just flowing between the gap... them slots are so big i dont see them providing and type of acoustical harmonics.. just a pathway..
Title: Re: Resonant cavity
Post by: Login to see usernames on May 07, 2011, 18:58:21 pm
Dear Jim,

Can you do a measurement on these tubes with that special tool of you?
It seems to me that the outertube is indead longer then the middle part of the innertube.....


Steve
Title: Re: Resonant cavity
Post by: Login to see usernames on May 08, 2011, 03:42:50 am
The negative tube is not a tube but a solid rod with the top and bottom drilled part way.It is solid in the center.water can't pass through the ceter.
Don
Title: Re: Resonant cavity
Post by: Login to see usernames on May 08, 2011, 11:01:37 am
The negative tube is not a tube but a solid rod with the top and bottom drilled part way.It is solid in the center.water can't pass through the ceter.
Don

Ok!
Thanks Don.
There goes my theory.... ;D
Interesting choice of Meyer to use a solid rod.
It does however explain the strange shape....




Title: Re: Resonant cavity
Post by: Login to see usernames on July 10, 2014, 10:59:22 am
Here a nice description of a resonant cavity...
Read carefully please....


Steve
Title: Re: Resonant cavity
Post by: Login to see usernames on July 10, 2014, 11:01:34 am
Next question is then: what are microwaves?

Microwaves, Radar

While there are some radar bands from 1,300 to 1,600 MHz, most microwave applications fall in the range 3,000 to 30,000 MHz (3-30 GHz). Current microwave ovens operate at a nominal frequency of 2450 MHz, a band assigned by the FCC. There are also some amateur and radio navigation uses of the 3-30 GHz range. In interactions with matter, microwave radiation primarily acts to produce molecular rotation and torsion, and microwave absorption manifests itself by heat. Molecular structure information can be obtained from the analysis of molecular rotational spectra, the most precise way to determine bond lengths and angles of molecules. Microwave radiation is also used in electron spin resonance spectroscopy.

For microwave ovens and some radar applications, the microwaves are produced by magnetrons.

Of great astrophysical significance is the 3K background radiation in the universe, which is in the microwave region. It has recently been mapped with great precision by the WMAP probe.

Frequencies: 1.6-30 GHz
Wavelengths: 187 - 10 mm
Quantum energies: 0.66 x 10-5 - 0.12 x 10-3 eV
Title: Re: Resonant cavity
Post by: Login to see usernames on July 10, 2014, 11:11:12 am
A cavity resonator, usually used in reference to electromagnetic resonators, is one in which waves exist in a hollow space inside the device.
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So the resonant frequencies of resonators, called normal modes, are equally spaced multiples (harmonics) of a lowest frequency called the fundamental frequency. The above analysis assumes the medium inside the resonator is homogeneous, so the waves travel at a constant speed, and that the shape of the resonator is rectilinear. If the resonator is inhomogeneous or has a nonrectilinear shape, like a circular drumhead or a cylindrical microwave cavity, the resonant frequencies may not occur at equally spaced multiples of the fundamental frequency. They are then called overtones instead of harmonics. There may be several such series of resonant frequencies in a single resonator, corresponding to different modes of vibration.
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An electrical circuit composed of discrete components can act as a resonator when both an inductor and capacitor are included. Oscillations are limited by the inclusion of resistance, either via a specific resistor component, or due to resistance of the inductor windings. Such resonant circuits are also called RLC circuits after the circuit symbols for the components.
A distributed-parameter resonator has capacitance, inductance, and resistance that cannot be isolated into separate lumped capacitors, inductors, or resistors. An example of this, much used in filtering, is the helical resonator.
A single layer coil (or solenoid) that is used as a secondary or tertiary winding in a Tesla coil or magnifying transmitter is also a distributed resonator.


Title: Re: Resonant cavity
Post by: Login to see usernames on July 10, 2014, 16:08:59 pm
so it was hollow inside
Title: Re: Resonant cavity
Post by: Login to see usernames on July 10, 2014, 16:28:22 pm
at least it is clear that the negative is on the outside and the positive on the inside...

Title: Re: Resonant cavity
Post by: Login to see usernames on July 10, 2014, 17:50:58 pm
I remember a patent about Φ ratio frequencies from rf waveguides to make hydrogen from water vapour
Title: Re: Resonant cavity
Post by: Login to see usernames on July 11, 2014, 02:38:09 am
at least it is clear that the negative is on the outside and the positive on the inside...

why did you conclude that?
Title: Re: Resonant cavity
Post by: Login to see usernames on July 11, 2014, 08:44:27 am
at least it is clear that the negative is on the outside and the positive on the inside...

why did you conclude that?

If HF energy is traveling on the outside of a conductor, is leaving the conductor into space, and you want to catch it, want to bounch it in a cavity, it seems to me logic to do that this way....
If you take the outer tube, you might loose at least 50% floating into air or in our case, waterbucket
Title: Re: Resonant cavity
Post by: Login to see usernames on July 11, 2014, 10:40:41 am
isnt there a repulsive force between electrons when they stop moving? but between the walls it's different