阿亚拉氏方程式英文解释翻译、阿亚拉氏方程式的近义词、反义词、例句
英语翻译:
【医】 Ayala's equation
分词翻译:
阿的英语翻译:
【机】 ar-
亚的英语翻译:
inferior; second
【医】 deutero-; deuto-; sub-
拉的英语翻译:
pull; draw; drag in; draught; haul; pluck
【机】 pull; tension; tractive
氏的英语翻译:
family name; surname
方程式的英语翻译:
equation
【化】 equation
【医】 equation
网络扩展解释
阿亚拉氏方程式
阿亚拉氏方程式是指流体动力学中一种偏微分方程,描述了粘性流体在运动过程中的流动特性。阿亚拉氏方程式通常用于研究流体的纹理和运动状态,被广泛应用在液体、气体、等离子体和物质等领域。
中文拼音
阿亚拉氏方程式的中文拼音为 "ā yǎ lā shì fāng chéng shì"。
英语解释翻译
The Navier-Stokes equations, named after Claude-Louis Navier and George Gabriel Stokes, describe the motion of viscous fluid substances. The equations are named after these two scientists who independently in the mid 1800s derived the equations governing fluid motion. The Navier-Stokes equations are used to study the motion of fluids like liquids, gases and plasmas.
英文读音
The English pronunciation of Navier-Stokes equations is "na-vi-er stohks ih-kwey-zhuhnz".
英文用法
The Navier-Stokes equations are a set of equations that describe the motion of fluids, including both liquids and gases. They are widely used in the study of fluid mechanics and are essential in the design and engineering of a variety of devices and systems that rely on fluid motion, including engines, turbines, and pumps.
英文例句
- Understanding the Navier-Stokes equations is essential in the study of fluid mechanics.
- Engineers rely on the Navier-Stokes equations to design efficient pumps and turbines.
- The Navier-Stokes equations can help predict aerodynamic properties of airplanes and spacecraft.
英文近义词
Some synonyms for Navier-Stokes equations include fluid equations, motion equations, and continuity equations.
英文反义词
There are no direct antonyms for Navier-Stokes equations as they are a specific set of equations used to describe fluid motion in a variety of scenarios.
英文单词常用度
The Navier-Stokes equations are a frequently-used set of equations in the field of fluid dynamics and engineering. They are considered to be an essential tool across a variety of industries, particularly in the design and construction of devices and systems that rely on fluid motion for their operation.