Abstract
Compressible Euler equations with Coriolis force are the fundamental model in the study of atmospheric dynamics. In this article, we study the lifespan of the projected 2-dimensional C2 non-vacuum solutions of the compressible Euler equations with Coriolis force. We first locate the vortex equations for the compressible Euler equations with Coriolis force and then use the integration method to prove that the corresponding blowup results exist for the rotational C2 solutions with a sufficiently large initial functional, H(0)=∫R3x→⋅u→0dV.Based on these new results for the system, the presence of Coriolis forces makes the inflation conditions more difficult to be satisfied.
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