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New Theories / Re: Should Bodes Law be revisisted?
« on: 04/10/2019 13:11:37 »
Meanwhile, the Ceres proportional ratio to Jupiter is predicted at .531441.
Ceres 413 million km/ Jupiter 778.5 million km = .53050
.53050/.531441=.9982
The orbit of Jupiter in relation to Saturn is 778.5/1434 = .54288
531441/54288 =.9789
The mean average distance is calculated to include the orbital eccentricity which adds to the size of the orbit. If that eccentricity when removed closes on .531441 we could say that the orbit originally was a circle stationed at the ratio distance of .531441.
However, .9789 is also close to .9740 which is the square root of the square root of .9 or 4√.9. So it could be how the eccentricity plays into the astronomical distances. It might be that there is more than one ring in the orbital trajectory. A multiplicity of overlapping rings on which the planet wound up and that are no longer there, or at least if they are, the current is weaker than it used to be. At maximum power these rings had molten globules of rock running in circles with sizes ranging from planets to droplets. As these coagulated, the entire system began to cool and the result is the planet we live on. The original rings were arranged on ratios with the current orbital proportions as an end result. The orbits are like a fossilized print of what once was.
Ceres 413 million km/ Jupiter 778.5 million km = .53050
.53050/.531441=.9982
The orbit of Jupiter in relation to Saturn is 778.5/1434 = .54288
531441/54288 =.9789
The mean average distance is calculated to include the orbital eccentricity which adds to the size of the orbit. If that eccentricity when removed closes on .531441 we could say that the orbit originally was a circle stationed at the ratio distance of .531441.
However, .9789 is also close to .9740 which is the square root of the square root of .9 or 4√.9. So it could be how the eccentricity plays into the astronomical distances. It might be that there is more than one ring in the orbital trajectory. A multiplicity of overlapping rings on which the planet wound up and that are no longer there, or at least if they are, the current is weaker than it used to be. At maximum power these rings had molten globules of rock running in circles with sizes ranging from planets to droplets. As these coagulated, the entire system began to cool and the result is the planet we live on. The original rings were arranged on ratios with the current orbital proportions as an end result. The orbits are like a fossilized print of what once was.