| 1. | At this point mass vaccination would not be possible even if desired.
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| 2. | Is the solution still the same as if they are point masses?
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| 3. | The position of the point mass can be given in inertial coordinates as
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| 4. | It is assumed that component atoms are point masses connected by rigid bonds.
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| 5. | A particle considered as a point mass has 3 translational degrees of freedom.
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| 6. | In the Newtonian two-body problem, the masses are assumed to be point masses.
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| 7. | Electrons and nuclei are, to a very good approximation, point charges and point masses.
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| 8. | Isn't a path curving away from the point mass shorter?
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| 9. | Apart from these considerations a spherically symmetric body can be approximated by a point mass.
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| 10. | Each term in the above summation is an individual Newtonian potential for a point mass.
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