jup-inner-year
EXAMPLE 11. JUPITER’S FOUR SMALL “INNER” SATELLITES – THEIR MOVEMENTS SYNCHRONIZED WITH THE EARTH YEAR.
Jupiter has four Large Satellites (The “Galilean” Satellites). Inferior to them (ie:- closer to Jupiter) are Jupiter’s Four Small “Inner” Satellites. Here are their names and orbital periods (expressed in Earth days):- Metis (0.294780) and Adrastea (0.298260) and Amalthea (0.498179) and Thebe (0.674536) Jupiter’s rotation period = 0.41354 Earth days. The Earth Year = 365.256 Earth days.
To verify the above, scroll down to the bottom of this page.
DURING TWO EARTH YEARS:-
(A). Jupiter rotates 1766 rotations + a residual angle of 177.6 degrees.
Metis “fails” the Octant Rule.
(B). Adrastea rotates 2449 rotations + a residual angle of 89.3 degrees.
(C). Amalthea rotates 1466 rotations + a residual angle of 131.7 degrees.
(D). Thebe rotates 1082 rotations + a residual angle of 354.79 degrees.
Sample calculation:- (C). (365.256 x 2) ÷ 0.498179 = 1466.365 rotations of Amalthea, and 0.3659 x 360 = 131.2 degrees. That is 1466 rotations + a residual angle of 131.2 degrees.
When you depict each of these four residual angles as a (single line) radius, the four radiuses look like this:-
Once again, it is glaringly, blindingly obvious that these residual angles are NOT randomly distributed, as they absolutely SHOULD be if Newtonian Physics alone governed the movements of celestial bodies. (The gravitational field of Earth is insufficiently strong to alter or affect the rotation periods of distant satellites.) Once again, these residual angles all (mysteriously) “hug” the octants. “Something else” (other than Newtonian Physics) is influencing and dictating the movements of these satellites.
The statistical odds against all four residual angles “hugging” the octants so closely are in excess of 1 chance in 86. These odds are calculated in the following manner:-
The largest deviation from an octant is 5.2 degrees (Thebe).
Number of trials = n = 5 and number of successful trials = r = 4 and the probability that any single specific trial will be successful = p = (5.2 x 2 x 8) ÷ 360 = 0.23111 and the probability that any single specific trial will be unsuccessful = 1 minus p = 0.76888
p(r ≥ 4) = 5C4 x 0.768881 x 0.231114 = 0.01097
+ 5C5 x 0.768880 x 0.231115 = 0.000659
SUM = 0.0116 or 1 chance in 86. In fact, the odds are longer than this, because some of the deviations from an octant are smaller than 5.2 degrees. However, it could be argued that these satellites (which are relatively close to one another) can easily influence the movements of one another by gravitational attraction and “tidal friction”, and that being the case, their movements could be synchronized with the movements of Earth purely by chance. This argument is undermined by the fact that ALL the satellites of (just about) EVERY planet have their movements synchronized with the movements of Earth.
NUMERICAL DATA VERIFICATION.
Jupiter has four Large Satellites (The “Galilean” Satellites). Inferior to them (ie:- closer to Jupiter) are Jupiter’s Four Small “Inner” Satellites. Here are their names and orbital periods (expressed in Earth days):- Metis (0.294780) and Adrastea (0.298260) and Amalthea (0.498179) and Thebe (0.674536) Jupiter’s rotation period = 0.41354 Earth days. The Earth Year = 365.256 Earth days.
To verify the above, click on the following two links.
For The Earth Year and Jupiter’s rotation period, click here:-
www.solarsystemtimeperiods.com/planet-orbital
and for Jupiter's Four "Inner" Satellites, click here:-
www.solarsystemtimeperiods.com/jup-inner
To see further similar examples (FULL Demonstrations) of THE OCTANTS RULE, and synchronization of the movements of Solar System bodies, go back to the "full-demonstrations" page by clicking on the following link: