Gravity-Gradient Induced Rotation During Planetary Side Passes: A Refraction- Analogy Framework

• Author(s): Gavy Kaler
• Paper ID: 1712996
• Page: 1433-1435
• Published Date: 18-12-2025
• Published In: Iconic Research And Engineering Journals
• Publisher: IRE Journals
• e-ISSN: 2456-8880
• Volume/Issue: Volume 9 Issue 6 December-2025

Abstract

This paper proposes a novel hypothesis for the origin of rotational motion in extended bodies passing near planetary gravitational fields. Unlike traditional explanations that attribute planetary rotation to angular momentum inherited during formation, this work explores the role of off axis gravitational gradients. When an object passes the side of a planet, gravitational forces act unevenly across its structure, producing torque that induces rotation. The mechanism is analogous to light refraction: light bends in a gradient medium, while rigid bodies rotate under gravitational stiffness. Analytical derivations and conceptual models suggest that this torque is significant for small bodies, spacecraft, and asteroids during close flybys, though negligible for planetary scale rotation. The framework provides a new lens for understanding spin changes in orbital dynamics and offers potential applications in spacecraft attitude control and asteroid flyby prediction.

Keywords

Gravity Gradient Torque, Planetary Flyby, Rotation Dynamics, Tidal Forces, Refraction Analogy, Orbital Mechanics.

Citations

IRE Journals:
Gavy Kaler "Gravity-Gradient Induced Rotation During Planetary Side Passes: A Refraction- Analogy Framework" Iconic Research And Engineering Journals Volume 9 Issue 6 2025 Page 1433-1435 https://doi.org/10.64388/IREV9I6-1712996

IEEE:
Gavy Kaler "Gravity-Gradient Induced Rotation During Planetary Side Passes: A Refraction- Analogy Framework" Iconic Research And Engineering Journals, 9(6) https://doi.org/10.64388/IREV9I6-1712996