example-seventeen

EXAMPLE 17. THE SECOND INNERMOST SATELLITES OF THE GIANT PLANETS – THEIR MOVEMENTS SYNCHRONIZED WITH EARTH’S ROTATION.

There are Four Giant Planets:- Jupiter, Saturn, Uranus, and Neptune.

Here is a list of The SECOND INNERMOST Satellites for each of these planets, together with the orbital period for each of the satellites (expressed in Earth days),

Jupiter’s SECOND INNERMOST Satellite is Adrastea (0.298260)

Saturn’s SECOND INNERMOST Satellite is Daphnis (0.5940798)

Uranus’ SECOND INNERMOST Satellite is Ophelia (0.37640039)

Neptune’s SECOND INNERMOST Satellite is Thalassa (0.31148444)

(A). During FOUR Daphnis orbital periods, Earth rotates (in relation to The Sun) 2 rotations + a residual angle of 135.5 degrees.

(B). During FOUR Ophelia orbital periods, Earth rotates (in relation to The Sun) 1 rotation + a residual angle of 182.0 degrees.

(C). During FOUR Thalassa orbital periods, Earth rotates (in relation to The Sun) 1 rotation + a residual angle of 88.5 degrees.

Adrastea “fails” The Octant Rule.

Sample calculation:- (A). 0.5940798 x 4 = 2.3763192 Earth days (ie:- rotations in relation to The Sun), and (0.3763192 x 360) = 135.5 degrees. That is 2 rotations of Earth + a residual angle of 135.5 degrees.

When you depict each of these three residual angles as a (single line) radius, the three radiuses look like this:-


The material on this web site is also available in the book Astronomy - The Dishonest Science, by Roger Elliott (available on Amazon).



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 five residual angles “hugging” the octants so closely are in excess of 1 chance in 380. These odds are calculated in the following manner:-

The largest deviation from an octant is 2.0 degrees (Ophelia).

Number of trials = n = 4 and number of successful trials = r = 3 and the probability that any single specific trial will be successful = p = (2.0 x 2 x 8) ÷ 360 = 0.08889 and the probability that any single specific trial will be unsuccessful = 1 minus p = 0.9111

p(r ≥ 3) = 4C3 x 0.91111 x 0.088893 = 0.0025596

+ 4C4 x 0.91110 x 0.088894 = 0.0000624

SUM = 0.002622 or 1 chance in 380. In fact, the odds are longer than this, because some of the deviations from an octant are smaller than 2.0 degrees.

To verify numerical data, go to Appendix 2. Section 5 for Adrastea. Section 6 for Daphnis. Section 13 for Ophelia. Section 7 for Thalassa. (Note:- Numerical data verification is only available in the book.)