37
个编辑
更改
跳到导航
跳到搜索
小第1行:
第1行: − +
无编辑摘要
此词条暂由气象人翻译。
此词条暂由气象人翻译。
Climate models are systems of [[differential equation]]s based on the basic laws of [[physics]], [[Fluid dynamics|fluid motion]], and [[chemistry]]. To “run” a model, scientists divide the planet into a Three-dimensional grid, apply the basic equations, and evaluate the results. Atmospheric models calculate [[winds]], [[heat transfer]], [[radiation]], [[relative humidity]], and [[气候模式#/javascript:%3B|'''overland''']] [[气候模式#/javascript:%3B|'''runoff''']] within each grid and evaluate interactions with neighboring points.
Climate models are systems of [[differential equation]]s based on the basic laws of [[physics]], [[Fluid dynamics|fluid motion]], and [[chemistry]]. To “run” a model, scientists divide the planet into a Three-dimensional grid, apply the basic equations, and evaluate the results. Atmospheric models calculate [[winds]], [[heat transfer]], [[radiation]], [[relative humidity]], and [[Overland runoff|'''overland''' '''runoff''']] within each grid and evaluate interactions with neighboring points.
气候模型是基于物理、流体运动和化学基本定律的微分方程系统。 为了“运行”一个模型,科学家们将地球划分成一个三维网格,应用基本方程,并对结果进行评估。 大气模型计算每个网格内的风、热传递、辐射、相对湿度和地表径流,并评估与邻近点的相互作用。
气候模型是基于物理、流体运动和化学基本定律的微分方程系统。 为了“运行”一个模型,科学家们将地球划分成一个三维网格,应用基本方程,并对结果进行评估。 大气模型计算每个网格内的风、热传递、辐射、相对湿度和地表径流,并评估与邻近点的相互作用。