Propagating Interplanetary Trajectories from Earth to Mars

Versione 1.2.0.0 (15,9 MB) da David Eagle

Numerically integrate the orbital equations of motion of an Earth to Mars interplanetary trajectory.

http://celestialandorbitalmechanicswebsite.yolasite.com/

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Aggiornato 6 mar 2023

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PDF document and a MATLAB script called pprop_e2m that can be used to numerically integrate the geocentric and heliocentric orbital equations of motion of an Earth to Mars interplanetary trajectory. This scientific simulation begins at a user-defined epoch and state vector somewhere within the Earth’s sphere-of-influence (SOI) and ends at (1) closest approach to Mars, (2) a user-defined Mars-centered (areocentric) distance, or (3) at a user-defined final epoch.

Cita come

David Eagle (2025). Propagating Interplanetary Trajectories from Earth to Mars (https://www.mathworks.com/matlabcentral/fileexchange/41356-propagating-interplanetary-trajectories-from-earth-to-mars), MATLAB Central File Exchange. Recuperato febbraio 16, 2025.

Compatibilità della release di MATLAB

Creato con R2019b

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Categorie

Aerospace and Defense > Aerospace Blockset > Visualization >
Sciences > Geoscience > Earth and Planetary Science >

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Versione	Pubblicato	Note della release
1.2.0.0	6 mar 2023	Trajectory now initialized and results displayed in the Earth mean equator and equinox of J2000 (EME2000) coordinate system. Code clean up.	Scarica
1.1.0.0	24 ago 2021	Updated ephemeris to use DE421.bsp data file. Geocentric and heliocentric orbits displayed in Earth true-of-date coordinate system. Updated PDF documentation.	Scarica
1.0.0.0	18 apr 2013		Scarica