Dr. Maurice Allais report to NASA:
http://www.allais.info/alltrans/nasareport.pdfpages 35R - 43R
1. – Periodic structure of the month-long series of observations of
the asymmetrical paraconical pendulum with anisotropic support
a – The seven month-long series of observations of the
asymmetrical paraconical pendulum with anisotropic support
are characterized by a very remarkable periodic structure
c – Analysis together with 13 periods from the harmonic
analysis used in the theory of tides was particularly suggestive
The same periodicities as in the theory of tides appeared
to be significant in the movements of the paraconical pendulum,
but their coefficients of amplitude were very different.FOR THE PARACONICAL PENDULUM WITH ISOTROPIC
SUPPORT, THE RATIO OF THE COMPONENT OF 24H 50M TO
THE COMPONENT OF 24H IS ABOUT 14 TIMES LARGER,
THAN WITH THE THEORY OF TIDES (4.12/0.294=14.01)
2. – Periodic structure of the month-long series of observations of
the paraconical pendulum with isotropic support
A remarkable periodic structure appeared here as well.
The significant periodicities which appear are the
same as those of the theory of tides, but their relative
amplitudes are quite different.
c – One may well ask oneself why, when it occurs, the near
alignment of the Moon and the Sun does not generate the same
effects as a total eclipse.In fact, the importance of the monthly sidereal period of
27.322 days shows that these effects exist. But they can only
really be perceived over a period of several months.
Overall, it was the harmonic analysis of the various series
of observations of the paraconical pendulum with
anisotropic support and of the series of observations of the
paraconical pendulum with isotropic support
which made
me absolutely certain of their periodic structure as far as
the orders of magnitude of the components of 24h 50m,
24h, 12h 25m, and 12h are concerned, and of the
impossibility of explaining them by the theory of
gravitation, whether or not completed by the theory of
relativity.Seen overall, the harmonic analysis of the month-long
series of observations of the paraconical pendulum with
anisotropic and isotropic supports disclosed a very remarkable
underlying periodic structure.
This makes it clear why experiments for a few hours with
a Foucault pendulum have always been notable for inexplicable
anomalies.
• Particularly, my experiments with the paraconical
pendulum with isotropic support marked a fundamental stage in
my researches, and they enabled me to obtain results of
exceptional importance.
In fact, the periodic structures which were brought to light
exhibited great underlying coherence, particularly as far as
their phases were concerned.
The existence of anomalies in the movement of the
paraconical pendulum has become absolutely certain.
FOR THE LUNI-SOLAR WAVE OF 24H 50M, IN THE CASE OF
THE PARACONICAL PENDULUM WITH ANISOTROPIC
SUPPORT, THE EFFECTS OBSERVED ARE ABOUT TWENTY
MILLION TIMES GREATER THAN THOSE CALCULATED.
IN THE CASE OF THE PARACONICAL PENDULUM WITH
ISOTROPIC SUPPORT, THE RATIO BETWEEN THE
OBSERVED EFFECTS AND THE CALCULATED EFFECTS IS
ABOUT A HUNDRED MILLION.
THESE DIFFERENCES BETWEEN THE CALCULATED
VALUES AND THE OBSERVED VALUES ARE ENORMOUS,
AND WITHOUT ANY EQUAL IN THE LITERATURE.V –TOTALLY INEXPLICABLE OBSERVATIONS IN THE
FRAMEWORK OF CURRENT THEORY
1. – Orders of magnitude incompatible with current theory
In both cases, with the experiments with the anisotropic
support and with those with the isotropic support, it is found
that the amplitudes of the periodic effects are considerably
greater than those calculated according to the law of gravitation,
whether or not completed by the theory of relativity.
In the case of the anisotropic support, the amplitude of
the luni-solar component of 24h 50m is about twenty million
times greater than the amplitude calculated by the theory of
universal gravitation.
In the case of the paraconical pendulum with isotropic
support, this relation is about a hundred million.
The discrepancies discovered are enormous, and, as far
as I know, unmatched in the literature.
http://ether-wind.narod.ru/Allais_1997/Allais_1997_1.pdf (L'Anisotropie de L'espace, in French)