PeterDonis said:But this isn't really a "boundary condition".
The Newtonian Limit of General Relativity (GR) refers to the approximation of GR in situations where velocities are much smaller than the speed of light and gravitational fields are weak. In this limit, GR reduces to Newton's law of gravitation.
The Newtonian Limit is derived by taking the non-relativistic limit of the Einstein Field Equations, which describe the relationship between the curvature of spacetime and the distribution of matter and energy. This involves assuming that the velocities involved are much smaller than the speed of light and that the gravitational fields are weak.
The Newtonian Limit implies that in situations where velocities are much smaller than the speed of light and gravitational fields are weak, gravity can be described by Newton's law of gravitation. This means that the force of gravity is proportional to the masses of the objects and inversely proportional to the square of the distance between them.
Yes, the Newtonian Limit does not hold in extreme situations such as near black holes or in the early universe where velocities are close to the speed of light and gravitational fields are strong. In these cases, the full equations of General Relativity must be used to accurately describe gravity.
The Newtonian Limit of GR is a more accurate and comprehensive theory of gravity than Newton's law of gravitation. It takes into account the effects of space and time on the curvature of spacetime and the distribution of matter and energy. It also predicts additional phenomena such as gravitational time dilation and gravitational waves, which are not accounted for in Newton's theory.