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Author Topic: Steven Marks secret  (Read 307537 times)

giantkiller

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Re: Steven Marks secret
« Reply #210 on: October 20, 2009, 06:25:50 PM »
You got me thinking about this.
So I go to get a youtube and I came across this one. It is one of mine but I saw something different. The scope shot shows time but also distance on a micro scale.
http://www.youtube.com/watch?v=lHSZc7UGL28
So then I go to this next video:
http://www.youtube.com/watch?v=JgkjMPZZqgQ&feature=channel
Once again distance is the key.
What if the outer winding is at a distance of this harmonic?
I remember a post that said a reflection can also happen off of a standing wave. So what if the outer (distance) winding is also there to catch reflections. Tesla's receiver also expresses this, no? Reflections and impacts.
Much like the movie 'Core' where reflections going around in a circle and these rotations happening inside each concentric standing wave of the TPU. Can I get a reality check on this?

SM constantly mentiones 5khz and the TPUs are 4", 6" 15", 17".

Today, I can not pm on this site.


@ wattsup,

concerning your sound eliminating idea, I remember way back in physics class we did an experiment on this.  We hit a tuning fork over a long tube of water, where there is a certain distance from the fork to the water.  We could bounce the sound waves off the water back to the fork, which caused the cancellation of the sound.  Though also, which I think will help this case, changing the distance from the fork to the water we were able to MAGNIFY the sound wave and make it louder.  Perhaps this is what is happening in the TPU as well?

Also another question I have or solution, maybe an obstacle is that the wire is braided and you cant keep an exact distance because of this.  What if you you unbraided wire more like house electric wire?  Was braided wire originally used?

Mark
« Last Edit: October 20, 2009, 08:56:03 PM by giantkiller »

stprue

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Re: Steven Marks secret
« Reply #211 on: October 20, 2009, 09:24:47 PM »
I think you are right in regards to wire length and standing waves!  I'm pretty sure this is also what Bruce will be posting on next...hopefully soon ;D

zapnic

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Re: Steven Marks secret
« Reply #212 on: October 20, 2009, 10:04:29 PM »
@whattsup
Great observations.

This device was well before he was silenced.

Do you think the magnet is "sticking" to the centre torriod?

or does it fall back when he inverts it?
he he
sticking coefficient
and
Quantum reflection


forest

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Re: Steven Marks secret
« Reply #213 on: October 20, 2009, 10:15:27 PM »
btw,what about Bruce  ? everything allright ? he didn't posted for a long time

giantkiller

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Re: Steven Marks secret
« Reply #214 on: October 20, 2009, 10:44:53 PM »
Haven't heard from Bruce. He sent me 2 of his builds and I made one of the taller ones. Now my controller is fried and it is a real dilemic problem to fix. I need this device. The uproc works on the pc communications side and is quiet on the output driver side. Argh! And that is with all ouput support chips removed and just the uproc in place for usb comm. I am writting code to toggle the Chip select line now to debug this beast.
His idea is sound but the interaction cannot happen in the copper but in the magfields. His scope of design fits with my thinking previously. Magnetic standing waves is the basis of the Subquantum Kinetics creation process. Laviolette states in his model that the electron is a confined force and not a particle. But shows up as both depending on the speed and force. Liken to a photon. To me it seems like the electron is an interference of forces that appears and echos around the shell or standing wave. It like we want to have the electron as a particle because we are focused on material things. It can't exist if it ain't hard or has no power at our level of conveyance.

--gk.

forest

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Re: Steven Marks secret
« Reply #215 on: October 20, 2009, 10:56:54 PM »
I agree about electron, I even think that voltage is electron wave state, and particle electron is just an interference of many electron waves running in both directions. But all that is far ahead of what we are looking now.
I think Bearden is right about dipole. If you have more electrons in one place compared to other  you have electricity, because this is a dipole and source of voltage.Current is another problem and seems to flow only when voltage meet a second end of path and is reflected. Why ? Because there is an impossibility to have the same two electron waves in the same place ? I don't know.Sorry for a long post...

Yucca

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Re: Steven Marks secret
« Reply #216 on: October 20, 2009, 11:02:01 PM »
I think you are right in regards to wire length and standing waves!  I'm pretty sure this is also what Bruce will be posting on next...hopefully soon ;D

Yup, come on bruce... please.

stprue

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Re: Steven Marks secret
« Reply #217 on: October 21, 2009, 12:41:37 AM »
@Yucca

I got my Function gene today!!!!

Very nice!  ;D

sparks

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Re: Steven Marks secret
« Reply #218 on: October 21, 2009, 02:01:55 AM »
     @wattsup

   Gotta work fast to make your cause effect your receiver.  If we create something that stays put in the Aether would this be like erecting a shithouse on a train track.  When the train gets there the two become relavent and exchange a little potential energy.  If the bigbang is real the problem is that everything is in the same inertial field and there can be no relavent motion to the Aether. 

wings

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Re: Steven Marks secret
« Reply #219 on: October 21, 2009, 09:02:21 AM »

stprue

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Re: Steven Marks secret
« Reply #220 on: October 21, 2009, 06:38:03 PM »
@all

Some good info on standing waves!!!

Opposing waves
Standing waves
Standing wave in stationary medium. The red dots represent the wave nodes.
 A standing wave (black) depicted as the sum of two propagating waves traveling in opposite directions (red and blue).
 
 
Electric force vector (E) and magnetic force vector (H) of a standing wave.
 Standing waves in a string — the fundamental mode and the first 6 overtones.
 
 
A two-dimensional standing wave on a disk; this is the fundamental mode
 A higher harmonic standing wave on a disk with a node at the center of the drum.
 
 

As an example of the second type, a standing wave in a transmission line is a wave in which the distribution of current, voltage, or field strength is formed by the superposition of two waves of the same frequency propagating in opposite directions. The effect is a series of nodes (zero displacement) and anti-nodes (maximum displacement) at fixed points along the transmission line. Such a standing wave may be formed when a wave is transmitted into one end of a transmission line and is reflected from the other end by an impedance mismatch, i.e., discontinuity, such as an open circuit or a short.[1] The failure of the line to transfer power at the standing wave frequency will usually result in attenuation distortion.

Another example is standing waves in the open ocean formed by waves with the same wave period moving in opposite directions. These may form near storm centres, or from reflection of a swell at the shore, and are the source of microbaroms and microseisms.

In practice, losses in the transmission line and other components mean that a perfect reflection and a pure standing wave are never achieved. The result is a partial standing wave, which is a superposition of a standing wave and a traveling wave. The degree to which the wave resembles either a pure standing wave or a pure traveling wave is measured by the standing wave ratio (SWR).[2]

[edit] Mathematical description
In one dimension, two waves with the same frequency, wavelength and amplitude traveling in opposite directions will interfere and produce a standing wave or stationary wave. For example: a harmonic wave traveling to the right and hitting the end of the string produces a standing wave. The reflective wave has to have the same amplitude and frequency as the incoming wave.

If the string is held at both ends, forcing zero movement at the ends, the ends become zeroes or nodes of the wave. The length of the string then becomes a measure of which waves the string will entertain: the longest wavelength is called the fundamental. Half a wavelength of the fundamental fits on the string. Shorter wavelengths also can be supported as long as multiples of half a wavelength fit on the string. The frequencies of these waves all are multiples of the fundamental, and are called harmonics or overtones. For example, a guitar player can select an overtone by putting a finger on a string to force a node at the proper position between the ends of the string, suppressing all harmonics that do not share this node.

Let the harmonic waves be represented by the equations below:


and


where:

y0 is the amplitude of the wave,
ω (called angular frequency, measured in radians per second) is 2π times the frequency (in hertz),
k (called the wave number and measured in radians per metre) is 2π divided by the wavelength λ (in metres), and
x and t are variables for longitudinal position and time, respectively.
So the resultant wave y equation will be the sum of y1 and y2:


Using a trigonometric identity to simplify, the standing wave is described by:


This describes a wave that oscillates in time, but has a spatial dependence that is stationary: sin(kx). At locations x = 0, λ/2, λ, 3λ/2, ... called the nodes the amplitude is always zero, whereas at locations x = λ/4, 3λ/4, 5λ/4, ... called the anti-nodes, the amplitude is maximum. The distance between two conjugative nodes or anti-nodes is λ/2.

Standing waves can also occur in more than one dimension, such as in a resonator. The illustration on the right shows a standing wave on a disk.

giantkiller

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Re: Steven Marks secret
« Reply #221 on: October 21, 2009, 09:29:36 PM »
No see picture?

stprue

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Re: Steven Marks secret
« Reply #222 on: October 21, 2009, 10:36:47 PM »
Yes I know and I'm sorry.  It didn't copy!  It is clearer if you Wiki it that's where it is from.

stprue

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Re: Steven Marks secret
« Reply #223 on: October 21, 2009, 10:38:12 PM »
Doesn't the mathematical description sound like SM?

tishatang

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Re: Steven Marks secret
« Reply #224 on: October 22, 2009, 07:12:06 AM »
@Otto and All

Do you suppose SM could have used something like one of these self-powered radio circuits shown here:  You could put one of these in front of each of the two coils.

http://www.crystalradio.net/crystalplans/

Scroll down to #153 Free Power Radios.  Here is page two of three showing the circuits.  File too big to attach.  You will have to download.

http://www.crystalradio.net/crystalplans/xximages/Free2.JPG

If one coil is tuned to around 200Khz and the other coil is turned to 60 hertz, they might gain in power like you would pushing a swing?  One circuit is designed to capture 60 Hz and the last one good for all stray frequencies.

 Tishatang