4\particle generation (粒子生成卷展栏)里particle motion (粒子运动)和particle timing(粒子时间)这两部分决定了粒子发射速度和粒子起始与存在的时间.要仔细研究.
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Virtual demonstration models of fire, solid particle movement and bubble movement are present using computer graphic technology.
在流化床锅炉数值仿真的基础上,运用计算机图形学的理论和方法,利用数字仿真计算的速度场、温度场和空隙率在炉膛内的分布数据,借助于粒子运动系统的表示方法,虚拟地表示出流化床的火焰、颗粒和气泡的运动,并实现动态显示和基本的人机交互。
参考来源 - 循环流化床的虚拟演示研究·2,447,543篇论文数据,部分数据来源于NoteExpress
现在我们需要添加一些力场来使粒子运动!
再者,支配粒子运动的一切自然规律也都是未知的。
Further, all the laws of nature that govern the particle motion are not known.
当他用数学解决系统,他发现他的粒子运动狂野和明显地随机。
When he solved the system numerically, he found that his particle moved wildly and apparently randomly.
If de Broglie is correct, we could then model the electron in its orbit not moving as a particle, but let's model it as a wave.
如果德布罗意是对的,那么我们可以在电子轨道中建立电子模型,不是像粒子一样运动,而是像波一样运动。
If a photon which has no mass can behave as a particle, does it follow then an electron which has mass can behave as a wave? 1920.
如果一个没有质量的光子,能像粒子一样运动,那么它能像一个,没有质量的电子那样以波的形式运动吗。
So, if instead you put your particle somewhere down here on the electric field, or on the wave, the electric field will now be in the other direction so your particle will be pushed the other way.
还有方向,所以如果,你把粒子放在这下面,电场的方向相反,粒子会朝另一个方向运动。
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