the difference between the average distances of the most distant and the least distant planetoid is measured at 200 million miles, so the whole orbit of the Earth could would be placed within the occupied zone and would stay there for 7 million miles on each side, this should also be added that the extensive space in which to meet the planetoids equals the zone in 270 million miles. If the width of the rings of which is formed mercury, Venus and Earth, would be equal to one-sixth of the smallest width of this belt or the ninth largest one, they would have merged the misty rings does not would and would be a solid drive. As one of the planetoids orbit captures Mars, it follows that the nebulous ring, which was formed the planetoid was supposed to resemble a ring, from which was formed the Mars. How this assumption is consistent with the hypothesis of foggy masses? 2) Commonly assume that different parts of the misty rings have the same angular velocity.
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the difference between the average distances of the most distant and the least distant
planetoid is measured at 200 million miles, so the whole orbit of the Earth could
would be placed within the occupied zone and would stay there for 7
million miles on each side, this should also be added that the
extensive space in which to meet the planetoids equals the zone in
270 million miles. If the width of the rings of which is formed mercury,
Venus and Earth, would be equal to one-sixth of the smallest width of this belt or
the ninth largest one, they would have merged the misty rings does not would
and would be a solid drive. As one of the planetoids orbit captures
Mars, it follows that the nebulous ring, which was formed
the planetoid was supposed to resemble a ring, from which was formed the Mars.
How this assumption is consistent with the hypothesis of foggy masses? 2)
Commonly assume that different parts of the misty rings have
the same angular velocity.
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