What is it about?

In 1796 Laplace conjectured that a primitive interstellar gas cloud may evolve under the influence of it own gravity to form a system of isolated rings which may in turn lead to the formation of planetary systems. In fact such a system of rings around a protostar has been observed recently in the constellation Taurus. In this paper we use the time dependent Euler-Poisson equations to find out under what conditions such a pattern formation can take place. To this end we consider these equations assuming that the gas is composed of incompressible stratified fluid. Under these assumptions the original six governing equations are then reduced to three. These equations are then solved analytically (approximately) and these solutions are used to determine the evolution of the mass density distribution within the interstellar gas cloud. We show that under proper conditions mass density waves can emerge within the cloud.

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Why is it important?

The paper yields insight a s to how the solar system was created. It demonestrates also that the mechnism that created our solar system is universal.

Perspectives

The paper answer a problem that engaged researcher over two centuries and Humanity for millenia

Professor Mayer Humi
WPI

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This page is a summary of: On the evolution of a primordial interstellar gas cloud, Journal of Mathematical Physics, September 2020, American Institute of Physics,
DOI: 10.1063/1.5144917.
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