2022
DOI: 10.48550/arxiv.2209.10590
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Tilting Uranus via the migration of an ancient satellite

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“…The angular momentum of a giant planet must be accurately known to calculate the planet's precession rate, which is the crucial quantity to determine whether it is in a spin-orbit resonance. Such resonances have been invoked, along with additional assumptions to explain the obliquities of Saturn, 27 • (Saillenfest et al 2021;Wisdom et al 2022), Jupiter, 3 • (Ward & Canup 2006), and Uranus, 98 • (Saillenfest et al 2022). The planetary spin angular momentum contributes 99% of the angular momenta of the Jovian or Saturnian systems, the rest coming from the most massive satellites.…”
Section: Introductionmentioning
confidence: 99%
“…The angular momentum of a giant planet must be accurately known to calculate the planet's precession rate, which is the crucial quantity to determine whether it is in a spin-orbit resonance. Such resonances have been invoked, along with additional assumptions to explain the obliquities of Saturn, 27 • (Saillenfest et al 2021;Wisdom et al 2022), Jupiter, 3 • (Ward & Canup 2006), and Uranus, 98 • (Saillenfest et al 2022). The planetary spin angular momentum contributes 99% of the angular momenta of the Jovian or Saturnian systems, the rest coming from the most massive satellites.…”
Section: Introductionmentioning
confidence: 99%