内格罗氏现象英文解释翻译、内格罗氏现象的近义词、反义词、例句
英语翻译:
【医】 cogwheel phenomenon; Negro's phenomenon
分词翻译:
内的英语翻译:
inner; inside; within【医】 end-; endo-; ento-; in-; intra-
格的英语翻译:
case; division; metre; square; standard; style【计】 lattice
罗的英语翻译:
catch birds with a net; collect; display; net; sift; silk【经】 gross
氏的英语翻译:
family name; surname现象的英语翻译:
phenomenon; appearance【化】 phenomenon
【医】 phenomenon
【经】 phenomenon
网络扩展解释
内格罗氏现象
内格罗氏现象(Nèi gé luó shì xiàn xiàng)是指液体在毛细管或细小通道中上升或下降时,受到表面张力和粘附力的作用,而形成的一种现象。内格罗氏现象广泛应用于化学、物理、生物、材料等领域的研究中。
英文解释翻译
The Nèi gé luó shì phenomenon is the phenomenon of a liquid rising or falling in a capillary or small channel under the influence of surface tension and adhesive forces. The Nèi gé luó shì phenomenon is widely used in research in the fields of chemistry, physics, biology, materials, etc.
英文读音
The pronunciation of Nèi gé luó shì in English is "Nay guh lwo shir".
英文的用法
The Nèi gé luó shì phenomenon is used to study the properties of fluids in confined spaces, such as capillaries and microfluidic channels. It is also used in the development of lab-on-a-chip devices and the design of microfluidic systems for drug delivery, medical diagnostics, and other applications.
英文例句
A common application of the Nèi gé luó shì phenomenon is in the measurement of the surface tension of liquids, which is an important parameter in determining their physical and chemical properties.
Researchers are using the Nèi gé luó shì phenomenon to study the behavior of fluids in nanoscale channels, which could lead to the development of new technologies for the manipulation and transportation of fluids at the micro and nanoscale.
英文近义词
The Nèi gé luó shì phenomenon is also known as the capillary effect, capillary action, or wicking.
英文反义词
The opposite of the Nèi gé luó shì phenomenon is the dewetting phenomenon, which is the retreat of a liquid from a surface or channel due to a lack of adhesion or surface tension.
英文单词常用度
The term Nèi gé luó shì is not commonly used in English, as it is a specific phenomenon that is usually referred to by its more common names such as capillary action or capillary effect.