Propagating Trajectories from the Earth to the Moon

Version 1.2.0.0 (17,6 Mo) par David Eagle

Integrate n-body trajectories from the Earth to the Moon. Includes non-spherical Earth gravity.

http://celestialandorbitalmechanicswebsite.yolasite.com/

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Mise à jour 20 jan. 2022

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PDF document and a MATLAB script called pprop_lunar that can be used to numerically integrate the geocentric orbital equations of motion of a trajectory from the Earth to the Moon. This scientific simulation begins at a user-defined epoch and geocentric state vector (position and velocity vectors) representing the point of trans-lunar injection (TLI) and ends at (1) closest approach to the Moon, (2) a user-defined Moon-centered (selenocentric) distance, or (3) at a user-defined final epoch.

Citation pour cette source

David Eagle (2024). Propagating Trajectories from the Earth to the Moon (https://www.mathworks.com/matlabcentral/fileexchange/43067-propagating-trajectories-from-the-earth-to-the-moon), MATLAB Central File Exchange. Récupéré le avril 23, 2024.

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Créé avec R2019b

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Version	Publié le	Notes de version
1.2.0.0	20 jan. 2022	Input in true-of-date coordinates. Updated to use JPL *.bsp ephemeris and MICE routines. PDF document updated.	Télécharger
1.1.0.0	28 mai 2014	Includes new option to model the effect of the Moon on the trajectory using non-spherical lunar gravity.	Télécharger
1.0.0.0	14 août 2013		Télécharger