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The energy tensor for a mixture of matter and outflowing radiation is derived, and a set of equations following from Einstein's field equations are written down whose solutions would represent nonstatic radiating spherical distributions. A few explicit analytical solutions are obtained, which describe a distribution of matter and outflowing radiation for r (t), an ever-expanding zone of pure radiation for a (t) (t) and empty space beyond r=b (t). Since db (t) dt is almost equal to 1 and da (t) dt is negative, the solutions obtained represent contracting distributions, but the contraction is not gravitational because mr is a constant on the boundary r=a (t), m being the mass. The contraction is a purely relativistic effect, the corresponding newtonian distributions being equilibrium distributions. It is hoped that the scheme developed here will be useful in working out solutions which would help in a clear understanding of the initial or the final stages of stellar evolution.
P. C. Vaidya (Sun,) studied this question.