Exploded Planet Hypothesis
The Exploded Planet Hypothesis (EPH) has its origins in the 18th century when the regular spacing of the orbits of the then known six planets, with the glaring exception of the apparently empty theoretical position between Mars and Jupiter, led to the formulation of the Titius-Bode Law. The discovery of Neptune in 1846 in a position that did not conform to the rule of Titius-Bode, led to its gradual abandonment. However, the discovery of Pluto in the 1930’s brought the ‘Law’ back into consideration as Pluto was in the position that should have been occupied by Neptune. The exceptions to the Titius-Bode law are the lack of a planet where the Asteroid Belt is and the position of Neptune. In 2003, a further planet, Sedna, was discovered at a distance of 8 billion miles from the sun, as predicted by Doug Yurchey on the Internet in 2002(a). Since then, further bodies have been discovered in the outer region of our solar system, one of which was larger than Pluto.
As you will see below, a credible explanation for the Asteroid Belt is on offer and if correct, it means that now ten of the eleven planetary orbits in our Solar System correspond with the prediction of Titius-Bode. Statistically, this must have some significance. Therefore, in order to reinstate the Titius-Bode ‘law’ back on the statute book it is important to find an acceptable explanation for Neptune’s orbit.
Particular planets with satellite systems also confirm Titius-Bode, such as the principal satellites of Jupiter, Saturn and Uranus. Furthermore, even at this early stage in our investigation of extrasolar planetary systems, one, 55 Cancri, has at least four planets whose orbits appear to follow a similar pattern(c).
The 19th century saw the discovery of more asteroids in the orbit where a planet would have been expected. As early as 1802 the suggestion that an exploded planet had originally occupied this position was considered. As more asteroids were discovered the idea gained support. However, there remained one major problem with the theory, namely, that the total mass of the known asteroids would not constitute one thousandth of our earth. So where did all the matter go?
Tom Van Flandern (1940-2009), the leading exponent of the EPH, explained; ‘Consider what would happen if the Earth exploded today. Surface and crustal rock would shatter and fragment, but remain rocks. However, rocks from depths greater than 40 km are under so much pressure at high temperature that if suddenly released into a vacuum, such rocks would vaporise. As a consequence, over 99% of the Earth’s total mass would vaporise in an explosion, with only its low-pressure crustal and upper mantle layers surviving’. This explanation would clearly account for the low total mass of the objects in the Asteroid Belt. Van Flandern has expanded on his theory in what many consider a landmark book, Dark Matter, Missing Planets and New Comets.
Van Flandern ascribes a date for this planetary explosion that is well before man existed on Earth. However, many of our ancient myths have been interpreted as describing celestial events in the vicinity of Earth that had a direct physical effect on our planet. Immanuel Velikovsky wrote extensively on these ancient tales and concluded that they referred to close encounters between Earth and Mars and separately with Venus.
The date of the Asteroid Belt collision or explosion was estimated in 2015 to be 470 million years ago after the identification of twin impact craters in Sweden(d).
If Titius-Bode is valid and Velikovsky’s planetary encounters real, we need to explain how they left their orbits in the first place and then must explain how they returned to their original positions. Ralph E. Juergens, an American engineer, supports Velikovsky with the idea that electromagnetic and electrostatic forces and not conventional celestial mechanics alone were responsible for the cosmic encounters witnessed and recorded by our ancestors(b). My personal hunch is that Van Flandern is correct about the explosion of a planet but wrong about the date of the occurrence.
The EPH may have a bearing on the demise of Atlantis in the shape of an asteroidal collision with Earth that in turn precipitated the ending of the last Ice Age and the consequential flooding of large areas of exposed land.
Alan Alford has a different view in his recent book in which he attempts to prove that Atlantis originated in an ancient myth concerning an exploding planet. However, this would require an event that occurred within the experience of speaking man for it to have been passed on in the form of myth.
(c) BBC Focus magazine (No. 169, October 2006 p.58-63)