Celestial mechanics and astrodynamics#
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Important
Some examples may use features not available yet in the latest stable release of heyoka.py, and thus might fail to execute correctly in the online interactive notebooks. Please refer to the changelog for an overview of the features currently available only in the development version of heyoka.py.
- The restricted three-body problem
- Continuation of Periodic Orbits in the CR3BP
- Pseudo arc-length continuation in the CR3BP
- Brouwer’s law in the outer Solar System
- Long term stability of N-body simulations: the case of Trappist-1
- Conserving first integrals via manifold projection
- Box control in satellite Formation Flying
- Comparing coordinate systems
- Inverting Kepler’s equation in ODEs
- Planetary embryos in the inner Solar System
- Mercury’s relativistic precession
- Calculating transit timing variations
- Introduction to the VSOP2013 planetary theory
- Introduction to the ELP2000 lunar theory
- Elastic tides
- Lagrange propagation and the state transition matrix
- Gravity-gradient stabilization
- A differentiable SGP4 propagator