ON DERIVATION AND CLASSIFICATION OF VLASOV TYPE EQUATIONS AND EQUATIONS OF MAGNETOHYDRODYNAMICS. THE LAGRANGE IDENTITY, THE GODUNOV FORM, AND CRITICAL MASS

V. V. Vedenyapin; M. A. Negmatov

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ON DERIVATION AND CLASSIFICATION OF VLASOV TYPE EQUATIONS AND EQUATIONS OF MAGNETOHYDRODYNAMICS. THE LAGRANGE IDENTITY, THE GODUNOV FORM, AND CRITICAL MASS

机译：Vlasov型方程和磁流体动力学方程的推导和分类。拉格兰奇身份，古杜诺夫形式和关键质量

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The derivation of the Vlasov-Maxwell and the Vlasov-Poisson-Poisson equations from Lagrangians of classical electrodynamics is described. The equations of electromagnetohydrodynamics (EMHD) type and electrostatics with gravitation are obtained. We obtain and compare the Lagrange equalities and their generalizations for different types of the Vlasov and EMHD equations. The conveniences of writing the EMHD equations in twice divergent form are discussed. We analyze exact solutions to the Vlasov-Poisson-Poisson equations with the presence of gravitation where we have different types of nonlinear elliptic equations for trajectories of particles with critical mass m~2 = e~2/G, which has an obvious physical sense, where G denotes the gravitation constant and e is the electron charge. As a consequence we have different behaviors of particles: divergence or collapse of their trajectories.

机译：描述了从经典电动力学的拉格朗日算式推导Vlasov-Maxwell和Vlasov-Poisson-Poisson方程。得到了电磁流体力学（EMHD）类型和重力静电的方程。我们获得并比较了不同类型的Vlasov和EMHD方程的Lagrange等式及其推广。讨论了以两次发散形式编写EMHD方程的便利性。我们在存在引力的情况下分析Vlasov-Poisson-Poisson方程的精确解，其中对于临界质量为m〜2 = e〜2 / G的粒子，我们使用不同类型的非线性椭圆方程，具有明显的物理意义，其中G表示重力常数，e表示电子电荷。结果，我们有不同的粒子行为：它们的轨迹发散或崩溃。

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《Journal of Mathematical Sciences 》 |2014年第5期| 769-782| 共14页
作者
V. V. Vedenyapin; M. A. Negmatov;
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Keldysh Institute of Applied Mathematics, Moscow, Russia;

Keldysh Institute of Applied Mathematics, Moscow, Russia;

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ON DERIVATION AND CLASSIFICATION OF VLASOV TYPE EQUATIONS AND EQUATIONS OF MAGNETOHYDRODYNAMICS. THE LAGRANGE IDENTITY, THE GODUNOV FORM, AND CRITICAL MASS

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