achieving dimensionlessness
实现无量纲性
the reynolds number is a dimensionless quantity used in fluid mechanics.
雷诺数是一个在流体力学中使用的无量纲量。
dimensionless analysis helps simplify complex physical systems.
无量纲分析有助于简化复杂的物理系统。
we used dimensionless variables to scale the model effectively.
我们使用无量纲变量来有效地缩放模型。
the study focused on dimensionless parameters affecting heat transfer.
该研究侧重于影响热传递的无量纲参数。
dimensionless groups provide valuable insights into scaling laws.
无量纲组提供有关缩放定律的宝贵见解。
the model's success depended on maintaining dimensionless consistency.
该模型的成功取决于维持无量纲的一致性。
we normalized the data to obtain dimensionless values.
我们将数据归一化以获得无量纲值。
the dimensionless ratio indicated a transition in the flow regime.
无量纲比率表明流动状态发生了转变。
dimensionless scaling allows comparison across different systems.
无量纲缩放允许在不同系统之间进行比较。
the dimensionless shear stress was calculated for the experiment.
该实验计算了无量纲剪切应力。
understanding dimensionless numbers is crucial for engineering design.
理解无量纲数对于工程设计至关重要。
achieving dimensionlessness
实现无量纲性
the reynolds number is a dimensionless quantity used in fluid mechanics.
雷诺数是一个在流体力学中使用的无量纲量。
dimensionless analysis helps simplify complex physical systems.
无量纲分析有助于简化复杂的物理系统。
we used dimensionless variables to scale the model effectively.
我们使用无量纲变量来有效地缩放模型。
the study focused on dimensionless parameters affecting heat transfer.
该研究侧重于影响热传递的无量纲参数。
dimensionless groups provide valuable insights into scaling laws.
无量纲组提供有关缩放定律的宝贵见解。
the model's success depended on maintaining dimensionless consistency.
该模型的成功取决于维持无量纲的一致性。
we normalized the data to obtain dimensionless values.
我们将数据归一化以获得无量纲值。
the dimensionless ratio indicated a transition in the flow regime.
无量纲比率表明流动状态发生了转变。
dimensionless scaling allows comparison across different systems.
无量纲缩放允许在不同系统之间进行比较。
the dimensionless shear stress was calculated for the experiment.
该实验计算了无量纲剪切应力。
understanding dimensionless numbers is crucial for engineering design.
理解无量纲数对于工程设计至关重要。
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