Relative angular momentum
In celestial mechanics, the relative angular momentum () of an orbiting body () relative to a central body () is the moment of ()'s relative linear momentum:
where:
- is the orbital position vector of the orbiting body relative to the central body,
- is the orbital velocity vector of the orbiting body relative to the central body,
- is mass of the orbiting body.
For a body in an unperturbed orbit about a central body, the orbital plane is stationary, and the relative angular momentum () is perpendicular to the orbital plane.
For perturbed orbits where the orbital plane is in motion, the relative angular momentum vector is perpendicular to the (osculating) orbital plane at only two points in the orbit.
Uses
In astrodynamics relative angular momentum is usually used to derive specific relative angular momentum ():
where:
- is mass of the orbiting body.
gollark: Exactly.
gollark: Make enemies?
gollark: Sneak it into his food?
gollark: Ultimately, it's the universe's fault.
gollark: I don't think that's a reasonable way to do rights.
See also
- Angular momentum
- Specific relative angular momentum
- Linear momentum
- Momentum
References
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.