由于降水取决于云滴相互碰撞并凝聚成更大更重的水滴,海洋云层中若存在大量的微粒还会推迟降水的发生。
In Marine layer clouds, an abundance of small particles may also delay the onset of precipitation, which depends on cloud droplets colliding and coalescing into larger, heavier drops.
结果发现凝聚体中的粒子之间的相互作用强度对其非线性动力学特征有重要的影响。
It is shown that the strength of inter-atomic interaction condensate has an important effect on its nonlinear dynamics properties.
当同层的个体之间相互影响时,它们自然而然凝聚成了组块——完整的细胞器官——然后成为行动缓慢、规模更大网络的基础单元。
As influence flows peer to peer, it coheres into a chunk — a whole organelle — which then becomes the bottom unit in a larger web of slower actions.
应用推荐