Planet X: Slowing Rotation 3 (Star Sync Evidence)
3. If the Earths rotation is slowing beyond what is being admitted,
then the time to arrive at sync points with the constellations should be
slowing, yet seems to be steady.
BUT, charts on star syncing prior to 1900 show a stasis for 200 years
with only a SLOWING since 1900.
3a: Troubled Times member Mike found that the Earth orbit is not
slowing, only the rotation.
(chart at http://www.zetatalk.com/theword/tword17y.htm)
3b: Troubled Times member Jacob found a chart on Earth rotation vs star
syncing with a chart from 1620. This shows the Earth rotation SLOWING
since 1900.
I am not an astronomer [but] I have [a] book on the
subject: Practical Astronomy with your Calculator
by Peter Duffett-Smith, Cambridge University Press,
Cambridge, 1988. I was very surprised to find in this
book a chapter 16 describing the phenomenon of the
recent slowing of the Earth rotation in great details.
The change of the Earth rotation in this book was
calculated from the motion of the Moon for old data
(since 1620) or from the time measured by atomic
clock (since 1984). For some unknown reasons the
Earth rotation measured by the Moon clock was
accelerating from the year 1620 to the year 1680.
Then the Earth rotation was quite stable for more
than two centuries. Suddenly, since the year 1900
the Earth rotation began slowing quite rapidly, and
it is continuing slowing. In January 1986 the
difference between ET (ephemeris time) or TDT
(terrestrial dynamic time) and UT (universal time)
was 54.87 seconds, UT being behind TDT; that
is TDT-UT=Delta T=54.87 seconds.
(chart at http://www.zetatalk.com/theword/tworx385.htm)
3c. Troubled Times member Mike learned that Global Positioning
Satellites were adjusted for a 6 minute period recently, in 1999.
I just got wind of this today from a friend who read
it in a boating magazine. According to the
government, on August 21, 1999 ALL of the GPS
satellites will be switched off for at least 6 minutes
or more as they are reset and tested. Something about
being designed for a "20 year cycle".
(page at http://www.zetatalk.com/theword/tword17q.htm)
3d. The Navy attempted to drop leap seconds altogether, to avoid the
issue of clocks being out of sync with the stars, but did not get
international cooperation.
Dear Colleague,
It has been proposed to change the definition of
Coordinated Universal Time (UTC) regarding the
insertion of leap-seconds, possibly even eliminating
their use. Leap seconds are introduced so as to keep
UTC synchronized (within 0.9 s) to the time scale
determined from the Earth's rotation. ...
I would appreciate your assistance, and a response
by January 15 [2,000] to [email protected].
Sincerely,
Demetrios Matsakis,
Director, Time Service Department,
U. S. Naval Observatory
Nov 16, 1999
(page at http://www.zetatalk.com/theword/tword172.htm)
3d: But the rate or change compared to prior data during the 1900s is
well known. Troubled Times member Jacob notes:
So, the change of Earth slowing during one day was
0.000073 second or 73 microseconds at that time; the
change during one week was 0.000918 second or 918
microseconds. This very small daily change is very
hard to measure with common time devices. I have
learned from the International Earth Rotation Service
web page that their data are based on very accurate
measurements of the Earth rotation using data from
Very Long Baseline Interferometry (VLBI), Satellite
Laser Ranging (SLR), Global Positioning System
(GPS) satellites, and Lunar Laser Ranging (LLR).
Data are supplied by many organizations including
U.S. Naval Observatory, Paris Observatory, Institute
of Applied Astronomy, St. Petersburg, and many
others. Astronomical times are fully defined.
(page at http://www.zetatalk.com/theword/tworx385.htm)
And the Zetas explain the difficulty when the public is LOOKING:
... the Moon is positioned to present itself as full on
time, but the spot on Earth predicted to be able to
view a Full Moon may not be in position, if the Earth
is rotating more slowly. The Earth thus seems to take
longer, in a very gradual slowdown, for a given spot
on Earth to arrive where it can view the Full Moon.
The added time is only allowing the Earth to position
itself for a view. But at a certain point in this slowing
process, those looking to view the full moon will not
be in position on the proper night. At first, the moon
is viewed on this horizon, then overhead, then on the
other horizon, but still able to be viewed on the proper
date. The Full Moon is almost always sought or
noticed at night, when it is dramatic.
ZetaTalk, Trend Data
(http://www.zetatalk.com/poleshft/p128.htm)