1·Force analysis is a key problem in particle dynamics.
物体受力分析是研究质点动力学问题的关键。
2·Two mesoscale simulation methods, mesodyn and dissipative particle dynamics are introduced.
介绍了两种较为成熟的模拟方法:介观动力学和耗散颗粒动力学。
3·The fluid flow in a square channel was investigated using dissipative particle dynamics(DPD).
利用耗散粒子动力学(DPD)对方形通道内流体流动进行了模拟。
4·Particle dynamics have been improved for accuracy, including interaction with collision planes.
粒子动力学提高了其自身的精确度,包括与碰撞平面的相互作用。
5·Marine particle dynamics: sinking velocities, size distributions, fluxes, and microbial degradation rates.
海洋粒子动力学:下沉速度,粒度分布,通量,和微生物降解率。
6·Force analysis is a key problem in particle dynamics. In this paper, Sir Examples are discussed and criteria are given for the correctness of force analysis.
物体受力分析是研究质点动力学问题的关键。本文结合剖析六个例题,给出两条检查和判断物体受力分析正确与否的规则。
7·Further topics include kinematics, particle dynamics, motion relative to accelerated reference frames, work and energy, impulse and momentum, systems of particles and rigid body dynamics.
更进一步探讨运动学,质点动力学,于加速座标系上之运动行为,功,能量,冲量,动量和质点系统与刚体动力学。
8·This paper presents a real time cartoon smoke simulation algorithm based on fluid dynamics and particle system.
提出一种流体力学模型结合粒子系统的卡通烟雾实时模拟算法。
9·Dynamics and evaporation of fuel droplets in the chamber of fuel burning boiler with Venturi burner are simulated by employing particle trajectory model.
采用颗粒轨道法对选配文丘利型油燃烧器的燃油锅炉炉内油滴颗粒的运动和蒸发过程进行了数值模拟。
10·In the numerical simulations above, the smoothed particle hydrodynamics was applied in sea ice dynamics.
在以上数值模拟中,均采用了光滑质点动力学计算方法。