This research is a novel investigation into the use of newly-available relative angular acceleration measurements between a spacecraft utilized for gravity recovery missions and an internally located test mass. The gravity-gradient torque equation for zonal spherical harmonic order n is formulated for a known gravitational potential field, and through simulations it is proven that the Simplified-Gravitational Reference Sensor will be sensitive to the gravity-gradient induced torques acting on its test mass. The full conference paper will demonstrate how the presented gravity-gradient torque equation and the measured relative angular acceleration between the spacecraft and test mass will improve the accuracy of the gravity field models acquired by future gravity recovery missions by directly measuring the drag acting on the spacecraft with a single accelerometer.


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    Title :

    Measuring and Utilizing Gravity-Gradient Induced Torques on Future Gravity Recovery Missions


    Contributors:
    R. G. Kinzie (author) / R. Bevilacqua (author) / D. Seo (author) / H. You (author) / J. W. Conklin (author) / P. J. Wass (author)

    Publication date :

    2024


    Size :

    17 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English