Standard assumptions in astrodynamics

Standard assumptions in astrodynamics

For most of the problems in astrodynamics involving two bodies m_1, and m_2, standard assumptions are usually the following:
*A1: m_1, and m_2, are the only objects in the universe and thus influence of other objects is disregarded,
*A2: The mass of the orbiting body (m_2,) is far smaller than central body (m_1,), i.e.::{m_2over{m_1 ll 1

Results:
*A3: As the result of disparities in masses between m_1, and m_2, standard gravitational parameter (mu,) includes only the mass of the central body, i.e.::mu=G{m_1}simeq{G}(m_1+m_2)where G, is a gravitational constant.
*A4: Orbit of orbiting body is not perturbed in any way and the effects of general relativity are so small that they can be ignored, so the only orbits allowed are the circular, elliptic, parabolic and hyperbolic orbits of classical Newtonian theory.
*A5: One focus of orbiting body's orbit coincides with the center of the central body,

The center of the central body can be taken as the origin of an inertial frame of reference for the orbiting body,

Examples where those assumptions do not hold

*A1:
**although escape velocity is described as a velocity that should allow an orbiting body to coast to infinity and arrive there with zero velocity for most cases this will not be. E.g. even if the spacecraft is launched with escape velocity with respect to Earth it will not escape to infinity (e.g. leave the Solar system) because it will eventually succumb to the gravitational influence of the Sun.
**a rocket applying thrust
**in the case of atmospheric drag
*A2: a binary star

Two bodies orbiting each other

If A2 is not fulfilled, many results still apply with a small modification; see the two-body problem in astrodynamics.

ee also

*n-body problem


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