example-five
EXAMPLE 5. LARGEST AND SECOND LARGEST SYNCHRONIZED WITH THE EARTH’S ROTATION.
This example is extremely impressive, but requires careful perusal. It is slightly more complex than the previous examples, but it will be worth the effort, I promise you! Some readers have described it as “spooky”!
In this example, the names of all celestial bodies are immediately followed by their orbital period (op) or their rotation period (rp) – always expressed in Earth days.
(A). The Sun (rp 24.66225) and Jupiter (rp 0.41354) are the LARGEST and SECOND LARGEST bodies of The Solar System. Their rotation periods differ by 24.2487 Earth days. During this time period, Earth rotates (in relation to The Sun) 24 rotations + a residual angle of 89.5 degrees.
(B). Neptune’s LARGEST AND SECOND LARGEST satellites are – (respectively) Triton (op 5.876854) and Proteus (op 1.122315). Their orbital periods differ by 4.7546 Earth days. . During this time period, Earth rotates (in relation to The Sun) 4 rotations + a residual angle of 271.6 degrees.
(C). Uranus’ LARGEST AND SECOND LARGEST satellites are – (respectively) Titania (op 8.7058703) and Oberon (op 13.4632423). Their orbital periods differ by 4.75737 Earth days. During this time period, Earth rotates (in relation to The Sun) 4 rotations + a residual angle of 272.65 degrees.
(D). The Moon (op 27.32166) and (Mars satellite) Phobos (op 0.3189) are The LARGEST AND SECOND LARGEST satellites in The Inner Solar System. Their orbital periods differ by 27.00276 Earth days. During this time period, Earth rotates (in relation to The Sun) 27 rotations + a residual angle of 0.99 degrees.
(E). Jupiter (rp 0.41354) and Ganymede (rp 7.15455296) are The LARGEST AND SECOND LARGEST bodies of The Jupiter System. Their rotation periods differ by 6.7410 Earth days. During this time period, Earth rotates (in relation to The Sun) 6 rotations + a residual angle of 266.8 degrees
(F). Saturn (rp 0.44401) and Titan (rp 15.94542068) are The LARGEST AND SECOND LARGEST bodies of The Saturn System. Their rotation periods differ by 15.5014 Earth days. During this time period, Earth rotates (in relation to The Sun) 15 rotations + a residual angle of 180.5 degrees
(G). Uranus (rp 0.71833) and Titania (rp 8.7058703) are The LARGEST AND SECOND LARGEST bodies of The Uranus System. Their rotation periods differ by 7.9874 Earth days. During this time period, Earth rotates (in relation to The Sun) 7 rotations + a residual angle of 355.5 degrees.
Sample calculation – Uranus and Titania:- 8.7058703 minus 0.71833 = 7.98754 Earth days. 0.98754 x 360 = 355.5 degrees. That is 7 rotations of Earth (in relation to The Sun) + a residual angle of 355.5 degrees.
When you depict each of these seven angles as a (single line) radius, the seven radiuses SHOULD 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).
In fact, it looks 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 the rotation periods of all these separate planets and 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 celestial bodies.
The statistical odds against these residual angles “hugging” the octants so closely are in excess of 1 chance in 149. These odds are calculated in the following manner:-
Looking at items A, E, F, and G, There are Five Very Large Solar System Bodies, ie:- The Sun, Jupiter, Saturn, Uranus, and Neptune. The differences (expressed in Earth days) between the rotation periods of the parent and its largest body are:- Sun 24.2487 and Jupiter 6.741 and Saturn 15.5014 and Uranus 7.9875 and Neptune “fails” the octants rule. For the corresponding residual angles, the largest deviation from an octant is 4.5 degrees (Uranus).
Number of trials = n = 5 and number of successful trials = r = 4 and the probability that any single specific trial will be successful = p = (4.5 x 2 x 8) ÷ 360 = 0.2 and the probability that any single specific trial will be unsuccessful = 1 minus p = 0.8
p(r ≥ 4) = 5C4 x 0.81 x 0.24 = 0.0064
+ 5C5 x 0.80 x 0.25 = 0.00032
SUM = 0.00672 or 1 chance in 149. In fact, the odds are longer than this, because some of the deviations from an octant are smaller than 4.5 degrees. Then if you factor in items B, C, and D, the odds are longer still.
To verify numerical data, go to Appendix 2. Section 1 for The Sun, Section 2 for Jupiter and Saturn and Uranus and Neptune rotation. Section 7 for Neptune satellites. Section 4 for Pluto satellites. Section 12 for all large satellites. Section 3 for The Moon and Phobos. (Note:- Numerical data verification is only available in the book.)