mho

简明释义

英[məʊ]美[moʊ]

n. 姆欧（电导率单位，欧姆的倒数）

复 数 m h o s

英英释义

单词用法

同义词

反义词

例句

1.Talking of the mode of payment, can you advise mho of your regular practice in this respect?

谈到付款方式，您能告诉我你方在这方面的通常作法吗？

2.In this paper, a new mho relay based on adaptive principle is proposed.

提出了一种基于自适应原理的新型姆欧继电器。

3.Directional impedance relays (mho relays) are frequently used in high-voltage power systems.

方向阻抗继电器是高压电力网中最常用的继电器之一。

4.Directional impedance relays (mho relays) are frequently used in high-voltage power systems.

方向阻抗继电器是高压电力网中最常用的继电器之一。

5.If a material has a conductance of 2 mho 西门子, it allows twice as much current to flow compared to a material with 1 mho 西门子.

如果一种材料的导电率为2mho 西门子，那么它允许的电流是导电率为1mho 西门子的材料的两倍。

6.The resistance of the circuit is measured in ohms, while conductance is measured in mho 西门子.

电路的电阻以欧姆为单位，而导纳以mho 西门子为单位。

7.The unit mho 西门子 is the reciprocal of resistance measured in ohms.

mho 西门子是电阻（以欧姆为单位）的倒数。

8.An electrical engineer calculated the total conductance of the system to be 5 mho 西门子.

一位电气工程师计算出系统的总导电率为5mho 西门子。

9.In high-frequency applications, the conductance might increase significantly, leading to values over 10 mho 西门子.

在高频应用中，导电率可能会显著增加，导致值超过10mho 西门子。

作文

In the realm of physics and electrical engineering, we often encounter various units of measurement that help us quantify different properties. One such unit is the term mho, which is the reciprocal of ohms and represents electrical conductance. The concept of mho may seem obscure to those outside the field, but it plays a crucial role in understanding how electricity flows through materials. To truly grasp the significance of mho, we must explore its origins, applications, and implications in our daily lives.The term mho was coined by reversing the letters of 'ohm', named after the German physicist Georg Simon Ohm. This clever play on words not only serves as a reminder of the relationship between resistance and conductance but also highlights the interconnectedness of various physical principles. Conductance, measured in mho, indicates how easily electric current can flow through a material. A higher mho value signifies better conductivity, meaning that less energy is lost as heat when current passes through the conductor.Understanding mho is essential for engineers and technicians who design electrical systems. For instance, when selecting materials for wiring or circuit components, they must consider the conductance of each material. Copper, known for its excellent conductivity, has a high mho value, making it the preferred choice for electrical wiring. On the other hand, materials with low conductance, such as rubber or glass, have low mho values and are used as insulators to prevent unwanted current flow.The importance of mho extends beyond theoretical applications; it significantly impacts our everyday lives. For example, when we use household appliances, the efficiency of these devices often depends on the conductance of the materials used in their construction. A toaster, for instance, relies on wires with high mho values to ensure that electricity flows efficiently, generating enough heat to toast bread without wasting too much energy.Moreover, the concept of mho is not limited to electrical engineering. It can also be found in fields such as telecommunications, where signal quality and transmission speed depend on the conductance of materials used in cables and connectors. Understanding mho helps engineers optimize these systems for better performance and reliability.In conclusion, the term mho embodies a fundamental principle in the world of electricity and conductance. Its significance spans various fields, from electrical engineering to everyday applications in our homes and workplaces. By understanding the implications of mho, we can appreciate the intricate relationships between materials and electrical currents. As technology continues to advance, the relevance of mho will only grow, highlighting the importance of this seemingly simple unit of measurement in our increasingly electrified world.

在物理和电气工程的领域中，我们经常会遇到各种测量单位，这些单位帮助我们量化不同的属性。其中一个单位是术语mho，它是欧姆的倒数，表示电导率。对于那些不在该领域的人来说，mho的概念可能显得晦涩，但它在理解电流如何通过材料流动的过程中发挥着至关重要的作用。要真正掌握mho的重要性，我们必须探讨它的起源、应用以及在日常生活中的影响。术语mho是通过反转“ohm”的字母而创造的，这个名字是以德国物理学家乔治·西蒙·欧姆命名的。这种巧妙的文字游戏不仅提醒我们电阻与电导之间的关系，还突显了各种物理原理之间的相互联系。电导率以mho为单位，指示电流通过材料的容易程度。更高的mho值意味着更好的导电性，这意味着当电流通过导体时，损失的能量较少。理解mho对于设计电气系统的工程师和技术人员至关重要。例如，在选择电线或电路组件的材料时，他们必须考虑每种材料的电导率。铜以其优良的导电性而闻名，具有很高的mho值，使其成为电线的首选材料。另一方面，低导电性的材料，如橡胶或玻璃，具有低mho值，用作绝缘体，以防止不必要的电流流动。mho的重要性超越了理论应用；它对我们的日常生活产生了重大影响。例如，当我们使用家用电器时，这些设备的效率往往取决于其构造中使用材料的导电性。比如，一个烤面包机依赖于具有高mho值的电线，以确保电流有效流动，产生足够的热量来烤面包，而不会浪费太多能量。此外，mho的概念不仅限于电气工程。在电信等领域，它也可以找到，因为信号质量和传输速度取决于电缆和连接器中使用材料的导电性。理解mho帮助工程师优化这些系统，以获得更好的性能和可靠性。总之，术语mho体现了电力和电导率世界中的基本原则。它的重要性跨越了多个领域，从电气工程到我们家庭和工作场所的日常应用。通过理解mho的含义，我们可以欣赏材料与电流之间错综复杂的关系。随着技术的不断进步，mho的相关性只会增加，突显出这个看似简单的测量单位在我们日益电气化的世界中的重要性。