The attitude of this centrifugal force to gravity changes, in case of equality of the remaining terms, proportional to the square of the speed. As a result, the concentration of a rotating nebulous spheroid will be more or less strongly to counteract the centrifugal the desire of the particles constituting the spheroid, it all depends on how big or low rotation speed; opposition, in equal spheroids increases four times where the rotation is accelerated twice, nine times - where rotation is accelerated three times, etc. But the separation of the ring from the little planet misty body suggests that in the Equatorial zone of the body the centrifugal force caused by the process of concentration has become so great, what balances gravity. This is pretty obvious that the separation of the rings should occur just as often from those masses in which the centrifugal force has the closest relationship to the magnitude of gravity. Although we do not have possible to calculate the ratio of these quantities in the genetic spheroid of which formed each planet, but we can calculate where each of they were the greatest and where smallest. It is true that the current the ratio of centrifugal force to gravity at the equator of each planet greatly varies from that which existed in the early periods of concentration; it is true that this change of relationship arising from the circumstance, how each planet has decreased in volume, never in two cases were not the same: but, nevertheless, we may conclude that where this ratio is more currently, she was the highest since the beginning. An approximate measure of the desire that existed in the or another planet, to the formation of satellites can serve as the current attitude according force to the force opposing the concentration. By making the appropriate calculations, we find a remarkable coincidence with our output. Table I shows what fraction the centrifugal force represents in each case the centrifugal force and what is the attitude this fraction to the number of satellites
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The attitude of this centrifugal force to
gravity changes, in case of equality of the remaining terms, proportional to
the square of the speed. As a result, the concentration of a rotating nebulous
spheroid will be more or less strongly to counteract the centrifugal
the desire of the particles constituting the spheroid, it all depends on how big or
low rotation speed; opposition, in equal spheroids increases
four times where the rotation is accelerated twice, nine times - where
rotation is accelerated three times, etc. But the separation of the ring from the little planet
misty body suggests that in the Equatorial zone of the body
the centrifugal force caused by the process of concentration has become so great,
what balances gravity. This is pretty obvious that the separation of the
rings should occur just as often from those masses in which the centrifugal force
has the closest relationship to the magnitude of gravity. Although we do not have
possible to calculate the ratio of these quantities in the genetic spheroid of
which formed each planet, but we can calculate where each of
they were the greatest and where smallest. It is true that the current
the ratio of centrifugal force to gravity at the equator of each planet greatly
varies from that which existed in the early periods of concentration;
it is true that this change of relationship arising from the
circumstance, how each planet has decreased in volume, never in
two cases were not the same: but, nevertheless, we may conclude that
where this ratio is more currently, she was the highest since
the beginning. An approximate measure of the desire that existed in the or
another planet, to the formation of satellites can serve as the current attitude
according force to the force opposing the concentration.
By making the appropriate calculations, we find a remarkable coincidence with our
output. Table I shows what fraction the centrifugal force
represents in each case the centrifugal force and what is the attitude
this fraction to the number of satellites
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