Shades of Immanuel Veliokovsky.
Gas giants credited for solar system formationJupiter and Saturn form the basis of a "grand unified theory" of the solar system, according to new computer simulations. The research traces three seemingly unrelated phenomena -- the giant planets' orbits, craters on the Moon, and the behaviour of certain asteroids -- to the motions of the two gas giants nearly four billion years ago... an international team of researchers has performed computer simulations that reproduce the orbits of the four giant planets -- Jupiter, Saturn, Uranus, and Neptune -- in exquisite detail. The team has published a trio of papers about their findings in Nature. In the model, the four planets form in 10 million years within the current orbit of Uranus. Surrounding them in a ring are several thousand rocky objects called planetesimals, left over from the formation of the planets... planetesimals begin to "leak" into the giant planet zone and the orbits of the giant planets gradually change. After 700 million years, Saturn has migrated outward and Jupiter inward to the extent that they reach a "resonance" point. This means they begin to march in lockstep with each other, with Jupiter completing two orbits around the Sun for every one of Saturn's. The resonance allows the pair to greatly disturb the orbits of the other planets.
by Maggie McKee
25 May 2005Los Alamos Computers Probe How Giant Planets FormedWorking with a French colleague, Didier Saumon of Los Alamos' Applied Physics Division created models establishing that heavy elements are concentrated in Saturn's massive core, while those same elements are mixed throughout Jupiter, with very little or no central core at all. The study, published in this week's Astrophysical Journal, showed that refractory elements such as iron, silicon, carbon, nitrogen and oxygen are concentrated in Saturn's core, but are diffused in Jupiter, leading to a hypothesis that they were formed through different processes. Saumon collected data from several recent shock compression experiments that have showed how hydrogen behaves at pressures a million times greater than atmospheric pressure, approaching those present in the gas giants. These experiments -- performed over the past several years at U.S. national labs and in Russia -- have for the first time permitted accurate measurements of the so-called equation of state of simple fluids, such as hydrogen, within the high-pressure and high-density realm where ionization occurs for deuterium, the isotope made of a hydrogen atom with an additional neutron. Working with T. Guillot of the Observatoire de la Cote d'Azur, France, Saumon developed about 50,000 different models of the internal structures of the two giant gaseous planets that included every possible variation permitted by astrophysical observations and laboratory experiments.
Science News
July 22, 2004'Jupiter swallowed planet 10 times the size of Earth'Jupiter, the biggest planet in the solar system, might have gained its dominant position after swallowing up a smaller planet... the giant planet, which is more than 120 times bigger than the Earth, has an extremely small core that weighs just two to 10 Earth masses... Jupiter's core might have been vaporised in huge collision with a planet up to ten times the size of Earth... leaving only a fraction of the gas giant's former core behind. This could explain not only why Jupiter's core is so small, but also why its atmosphere is richer in heavy elements compared with the Sun...
Deccan Chronicle
August 12th, 2010