The protocol describes the algorithm of arriving at LOD in a given past geologicel Epoch. First the lunar orbital radius of the given geologic epoch has to be determined. For this the velocity of recession of Moon for the accelerated phase has to be determined. The spatial integral of the reciprocal of Velocity of recession gives the the transit time of Moon from desired orbit to the present orbit.Through several iterations the transit time is made to converge on the geologic epoch. Once we determine the desired orbital radius it has to be substituted in the LOD expression to determine the LOD in the given geologic epoch.

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This is a list of supplementary files associated with this preprint. Click to download.

- supplement0.docx
Supplementaary Document 1. Parameters for Iteration Supplementary document gives the parameters for setting up the Velocity of recession ang for for setting up the LOD expression.

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Posted 13 Aug, 2019

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Posted 13 Aug, 2019

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The protocol describes the algorithm of arriving at LOD in a given past geologicel Epoch. First the lunar orbital radius of the given geologic epoch has to be determined. For this the velocity of recession of Moon for the accelerated phase has to be determined. The spatial integral of the reciprocal of Velocity of recession gives the the transit time of Moon from desired orbit to the present orbit.Through several iterations the transit time is made to converge on the geologic epoch. Once we determine the desired orbital radius it has to be substituted in the LOD expression to determine the LOD in the given geologic epoch.

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