Exploding Binary Planet Systems
The Titus-Bode (pronounced Bow-Dee) Law, developed in the 1700s, describes how the distances between major planets follows a sequential order with the orbit of a given planet as twice the distance from the Sun as the previous planet.
The Titus-Bode Law was used to find the orbits of Uranus and Ceres in the asteroid belt. Neptune and Uranus affect the orbits of both planets, so Neptune does not conform to the Titus-Bode Law.
In his book “The Fourth Source. Effects of Natural Nuclear Reactors”, Robert J. Tuttle describes that Ceres and the asteroid belt may be the product of the detonation of a planet or binary system that Tuttle names “Asteria”.
The explosion of Asteria may have been a planetary binary system or the impact of a planetoid nearly the size of Asteria. In either case, the impact of the two planetary masses triggered their internal natural fission reactors to detonate.
Per J. Marvin Herndon, such natural fission reactor systems exist at the cores of all major celestial masses. Such a fission event, when the solar system has much more fissile material, our Sun ignited by fission and so ignited a thermonuclear mass. Similar events as Asteria explain the ring systems of major gas giants like Saturn.
Let us continue to watch for future binary planet collisions. The next major binary planet collision is predicted for 2022. We can only hope that observations include strict monitoring of all resultant radiation wavelengths, including soft x-rays thru Extreme Ultraviolet (EUV).
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In 2022, there will be another chance to observe such a collision of a binary system.
As described by M.a. Padmanabha Rao, Fission is identified in the radiation bands higher than those observed in stellar fusion. Soft x-rays are in the wavelength range of 0.1 to near 12 nanometers. Bharat radiation ranges between 13 to 31 nm. Extreme Ultraviolet radiation (EUV) ranges above 31 nm. The Sun’s fusion produces radiation ranging from UV thru Infrared (3200) nm.
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