CHAPTER SEVEN. MORE MULTIPLES OF A THOUSAND.
The Solar System has been configured with a series of “DELIBERATE CLUES” for OUR attention. The following examples all involve close-to-perfect multiples of A THOUSAND. The Solar System cannot “know” that humans have TEN digits, and therefore use a base TEN counting system. The number A THOUSAND (10 x 10 x 10) is only significant to a species with TEN digits. If we had TWELVE digits, the equivalent number (to A THOUSAND) would be (12 x 12 x 12) = 1728.
(A). First of all, I will show you three examples involving Venus’ rotation period, which is 243.0187 Earth days.
During this time period, the LARGE Satellites of The Naked-Eye-Visible Planets revolve altogether a total of 999.629 revolutions.
and, during this time period, Sun, Moon, and The Prograde Planets rotate altogether a total of 2000.466 rotations.
and, during this time period, Mars and its Primary Satellite rotate altogether a total of 998.9 rotations.
(B). Here is an example involving The Moon.
The SUM of the revolution periods of the Lunar Node and the Lunar Perigee exceeds The Lunar Month by 10,000.33736 Earth days.
The statistical odds against a single specific randomly generated large number being this close to a perfect multiple of TEN THOUSAND are one chance in 14,800.
1 ÷ [(0.33736 x 2) ÷10,000] = 14,820
Here are some general examples.
(C). The SUM of the synodic revolution and synodic rotation periods of The Four SLOW ROTATING Inner Solar System Bodies = 1001.098 Earth days.
(D). The SUM of the orbital and rotation periods of the planets out as far as (and including) Jupiter = 5999.6 Earth days.
(E). Mars and Jupiter are neighbour planets.
Mars’ orbital period = 669.597 Mars sidereal days.
Jupiter’s orbital period = 4330.595 Earth days.
The SUM of these two numbers = 5,000.192
(F). The Lunar Node passes the Lunar Perigee every 3566.882276 Earth days. During this time period, The Two Mars Satellites revolve synodically altogether a total of 13,999.598 revolutions.
(G). Mars’ orbital period = 686.9782 Earth days, or 669.59746 Mars sidereal days.
The PRODUCT of these two numbers = 459,999.9
To verify the various time periods in this chapter, go to APPENDIX SEVEN.