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(text in purple are replies by Kiran)

Measuring the state of organs with DC-Ohm meter

----- Original Message -----

From:

To: EnergeticMedicine@yahoogroups.com

Sent: Tuesday, February 24, 2004 11:50 PM

Subject: RE: [EnergeticMedicine] Q for J

This concept is fundamental to the work of Nakatani, Voll, Burr and Nordenstrom. Nakatani and Voll used ohm meters to measure the resistance of the meridians because the voltage pulsates (try it yourself with a voltmeter that reads in mV). Since at any given point in time, the amperage is fairly constant, because of Ohm’s Law, resistance = voltage. (Ohm’s Law: voltage = resistance x amperage). Thus it is technically easier to measure resistance than voltage because the resistance readings don’t pulsate like voltage readings do.

In the charts of Voll, one can see that chronically diseased meridians (and thus the organs associated with those organs) have a loss of voltage. It has also been measured directly by Burr and Nordenstrom. Burr actually discovered that one can identify various disease states by measuring voltage. One can even pinpoint exactly the time moment of ovulation by measuring the voltage of the cervix. Burr also recorded the voltage of trees and other objects continuously for several years mapping the pattern of voltage changes with seasons and with disease.

Nordenstrom did an interesting study where he put pH controlled solutions into two beakers. One was the same pH as the stomach (acidic) and one the pH of the liver (alkaline). He connected the beakers with a flexible tubing that was clamped to keep the solutions from mixing. He then put electrodes into each beaker and the electrodes passed through a light bulb. When he removed the clamp and allowed the solutions to mix, the light bulb illuminated. It was a neat way to show the control that the stomach acid has on the function of the liver. (Not exactly what you asked, but characteristic of Nordenstrom’s work). Much of what Nordenstrom did was to measure the voltage and polarity of tumors and the surrounding inflammatory tissue with his biopsy needle/electrodes.

My own observations with the SCENAR and Nakatani support their theories/studies. I print out the Nakatani charts. I then take a history from the patient and write on the chart the history as it corresponds with the resistance readings. Then I correct the points with the SCENAR (FV the degenerative ones and zero the inflamed ones). As I monitor the progress, one usually sees the degenerative readings become inflamed and then go to normal as Hering’s Law would predict. Of course the ohm meter of the SCENAR tells the same story. It’s just easier to follow the data on the Nakatani charts.

J

Hello Jerry, Group

just a short note on your post

What certainly Voll did not know and I guess many others who do those kind of experiments is that you cannot properly measure these

things with a regular DC-Ohm meter that you get at a hardware store.

The reason for that is that the body does not behave like a passive element like a regular resistor, in some aspects it is like a battery

in other respects it is even showing much more intelligent electrical and magnetic response pattern.... and DC-Ohm meters are

only designed for Ohm measurements with DC currents on passive resistors.

The experiments you described by Nordenstrom recreates a battery effect in the body, which you can see in everything that is alive,

remember the clocks you can buy in some mail order companies that run by sticking an electrode in an apple. But this is only one

of the many functions of the body.

Now when you use a regular DC-Meter meter you get this pulsing of the voltage because the body reacts by lowering or increasing

internal resistance depending on polarity, site and voltage, as a reaction to the applied voltage.....

the change of resistance allows then more or less currant to flow and this

in its turn sets up a secondary feedback cycle which in combination with the other leads to the oscillation which you observe.

Even if you upgrade your experimental abstraction by not just viewing the body as a passive resistor and see it as a battery instead you would

need quite a different measuring device which is called a "Battery tester".... see for example

http://www.hiokiusa.com/modules/products/index.php?op=viewcategory&catid=2

for more details. Those use 1kHertz signals to determine the internal resistance and this is also only a coarse approximation of what you can do

for example with a COLCOLE Plot station (same page) which in addition takes the frequency dependence of the internal resistance in consideration.

Obviously the body electrical energy system is way more than just a battery.... but the above was just to point out how much more complex

the measuring equipment and theoretical approach has to be in order to approximate electric body response pattern and to make

sense of what is actually happening.

greetings

Kiran