T. Nishida: Equations of fluid dynamics--free surface problems. Frontiers of the math- ematical sciences: 1985 (New York,1985). Comm. Pure Appl. Math. 39 (1986), no. S, suppl., S221-S238T. Nishida, Equations of fluid dynamics-free surface problems, Comm. Pure Appl. Math., XXXIX ...
6) fundamental equation's of dynamics 基本动力学方程补充资料:流体动力学基本方程 将质量、动量和能量守恒定律用于流体运动所得到的联系流体速度、压力、密度和温度等物理量的关系式。对于系统和控制体都可以建立流体动力学基本方程。系统是确定不变的物质的组合;而控制体是相对于某一坐标系固定不变的空间体积,它...
Equations of Fluid Dynamics 作者:LLC Books 页数:64 ISBN:9781155445335 豆瓣评分 目前无人评价 评价: 写笔记 写书评 加入购书单 分享到 推荐 我要写书评 Equations of Fluid Dynamics的书评 ···(全部 0 条)
1.3BasicEquationsofFluidFlow Influiddynamicsfluidsareinmotion.Theyaremovedfromplacetoplacebymeansofmechanicaldevices,bygravityhead,orbypressure,andflowthroughsystemsofpipingand/orprocessequipment.1.3.2MassBalanceinaFlowingFluid;Continuity Theprinciplesofphysicsmostusefulintheapplicationsofthefluidmechanicsaremass-...
Some self-similar solutions of the equations of electrohydrodynamics. Fluid Dyn 8, 843–845 (1973). https://doi.org/10.1007/BF01023592 Download citation Received06 May 1972 Issue DateSeptember 1973 DOIhttps://doi.org/10.1007/BF01023592 Access this article Log in via an institution Subscribe ...
In fluid dynamics, theEuler equationsgovern the motion of a compressible, inviscid fluid. They correspond to the Navier-Stokes equations with zero viscosity, although they are usually written in the form shown here because this emphasizes the fact that they directly represent conservation of mass, ...
and Panin, B.D., Dinamika atmosfery v neodnorodnom pole sily tyazhesti (Atmosphere Dynamics in Heterogeneous Field of Gravity Force), St. Petersburg: Russian State Hydrometeorological Univ., 2002. Google Scholar Lorenz, E., The Nature and the Theory of the General Circulation in Atmosphere,...
A molecular dynamics method is used to study the influence of a heavy dispersed particle on a liquid-solid phase transition in a molecular system of solid spheres. It is shown that the presence of a dispersed particle shifts the transition toward higher densities and pressures. In addition, in...
Godunov, S., Bohachevsky, I.: Finite difference methods for the computation of discontinuous solutions of the equations of fluid dynamics. Math. Sbornik 47(3), 271–306 (1959) Google Scholar Guermond, J.L., Kanschat, G.: Asymptotic analysis of upwind discontinuous Galerkin approximation of...
Numerical methods for the Euler equations of fluid dynamics. (Proceedings of the INRIA Workshop on Numerical Methods for the Euler Equations of Fluid Dynam... Topics discussed include the foundations of numerical schemes for solving the Euler equations, steady state calculations, finite element methods...