test della pentola bollente

From: Antonio Iovane <iovane_at_tin.it>
Date: Wed, 20 Feb 2001 18:33:28 GMT

Caro moderatore,
ti prego di considerare l' approvazione del seguente messaggio, anche
se in inglese.

Salve,
forse qualcuno di voi ricordera' la storia di eclissi e pendolo
statico.
Nel prosieguo degli esperimenti mi sono imbattuto in un segnale
descritto nel seguito. Riporto un messaggio che ho gia' postato in un
gruppo ristretto.
Scusatemi per l' inglese, peraltro modesto. Ora ho due scelte: o non
postare il messaggio, o farlo in inglese.
Fate l' esperimento, che non costa nulla. Ciao.

*********************
Dear group,

through this rapid communication I would invite all of you to make a
simple test which could, in the future, avoid many time-wasting
discussions.

Take an ordinary pot of those used for cooking, fill it with water up
to half capacity, then put it on a moderate flame.
Wait until the small vapor bubbles begin to appear on the pot's inner
faces. At this time you will hear a kind of pink noise coming from the
pot.
Now adjust the flame in order to avoid (or delay) tumultuous
ebullition.
Then focus on the noise. You will notice that it has a rhythmic
floating amplitude. Most of the times the frequency is close to 2 Hz,
sometimes it appears to be more close to 1 Hz, sometimes it appears
not well defined.
Pay a couple of minutes of attention on this noise in order to get
familiar with it.
Now ask a friend of yours to listen to this noise, and help him
recognize it. Then let him familiarize too. In order to check whether
both of you are tuned, ask your friend to accompain the rhythm with
the motion of a hand. Make the reverse test.
Now ask your friend to go say 20 Km from your site, to put a second
pot on a second flame.
Be in contact by phone. When water starts boiling in both sites, ask
your friend to beat the rhythm of his water by knocking with something
on the headset.
You will notice that the rhythms are perfectly synchronous: any
variations will appear synchronously in both sites. Make the reverse
test. Make the test as long as you want, in order to be shure.

It appears that an external non local force modulates the process.

I have found this signal with a lot of test apparatus including:

(a) boiling water in open pot
(b) boiling water in pressure pot
(c) burning moist (green) wood releasing vapor
(d) 2 solid state audio amplifiers
(e) 4 vacuum tube audio amplifiers
(f) 800 W AC electric motor running in a pressurized enclosure (home
refrigerator)
(g) 5 KW AC electric motor running in a pressurized enclosure
(industrial refrigerator)
(h) 12 V DC motor in open air (old PC hard disk)
(i) gas flames
(j) simple electrolysis process
(k) stationary pendulum
and more.

Whatever the couple of apparatus, the signal is always synchronous.

In the case of water, wood, gas flames and electrolysis, I believe
that the favorable circumstance is the moment of change of status: the
transition's threshold is modulated by the signal.

The modulation of the loud noise of electric motors may perhaps
proceede from the change of friction conditions due to micrometric
motions of the axis of running parts.

Audio amps have been used with no input signal and set to high volume.
The hissing noise is modulated. I have not made tests with any battery
operated amps, and perhaps the modulation may be due to a modulation
of the 50 Hz signal on the long power-distribution lines (perhaps
modulation of resistivity) or to inner properties of electronic
components.

The case of the stationary pendulum is particular. A 0.25 meter
pendulum has been carefully checked for magnetic sensitivity, and
controlled up to 0.5 micron of motion. Its frequency is approx 1 Hz.
Using as a reference one of the above apparatus, when the frequency of
the signal is close to 1 Hz, the pendulum oscillates exactly in phase
with the signal, and tracks small changes of frequency of the signal,
until it can. When the frequency drifts too much, it suddenly
disengages the signal. This spontaneous motion is approx 5 micron wide
in the case of my setup.

I believe that this signal is a gravitational one, not coming from
heart, and not vertical.

It may be the cause of the apparent daily tilts of the vertical I have
presented and discussed in the past (my previous tests with longer
stationary pendula), and, as its pattern varies during new moons and
eclipses, it may be the cumulative cause of the Allais effect and of
other anomalies detected with pendula, including imprecise attempts of
absolute measurements of g.

It is very hard for me to believe that this signal doesn't have a
heavy impact in many biological, physical and chemical processes, and
hope that this today's communication of mine, made in the honor of Pr.
Maurice Allais, could help open new fields of research and review some
physics of the past.

Regards,
Antonio Iovane - Marigliano - Italy

P.S. Prudentially, make your own first test a couple of days far from
new moon, as, at that time, the pattern changes. The signal is not so
simple as described, and I could tell about in the future. For the
purpose of the test, what I said above is enough.
********************
I worry that I could not have the time to follow up this message, thus
you could continue the discussion between yourselves. However, I could
be monitoring the thread, and would encourage to make the test.
Received on Tue Feb 20 2001 - 19:33:28 CET