abhenry

简明释义

英[æbˈhenri]美[æbˈhenri]

n. [电磁] 电磁亨（公制电磁感单位）

复 数 a b h e n r i e s

英英释义

单词用法

同义词

反义词

例句

1.One abhenry is equivalent to 10^-9 henries.

一个abhenry等于10^-9亨利。

2.The inductance of the coil is measured in abhenry.

该线圈的电感量以abhenry为单位。

3.Engineers need to convert measurements into abhenry for their calculations.

工程师需要将测量值转换为abhenry以进行计算。

4.In high-frequency applications, we often deal with values in abhenry.

在高频应用中，我们通常处理以abhenry为单位的数值。

5.The formula for calculating inductance can yield results in abhenry.

计算电感的公式可以得出以abhenry为单位的结果。

作文

In the realm of physics and electrical engineering, units of measurement play a crucial role in understanding the fundamental principles that govern our world. One such unit is the abhenry, which is used to measure inductance in the centimeter-gram-second (CGS) system. The abhenry is defined as the inductance of a circuit in which an electromotive force of one abvolt is produced by a change of current of one abampere per second. This definition may sound complex, but it highlights the relationship between current, voltage, and inductance, which are essential concepts in electromagnetism.Understanding the significance of the abhenry requires a brief exploration of inductance itself. Inductance is the property of an electrical conductor by which a change in electric current produces an electromotive force (EMF) in the conductor itself or in a nearby conductor. This phenomenon is a fundamental principle behind devices such as transformers and inductors, which are widely used in various electronic applications.The abhenry is part of the CGS system, which, despite being less commonly used today compared to the International System of Units (SI), provides valuable insights into the historical development of electrical measurements. In the SI system, the unit of inductance is the henry (H), where 1 henry equals 10^9 abhenries. This conversion factor illustrates the relationship between the two systems and emphasizes the importance of understanding different units when studying physics and engineering.In practical terms, the abhenry may not be as frequently encountered as the henry, but its existence underscores the diversity of measurement systems in science. Engineers and physicists often need to convert between these units depending on the context of their work, whether they are designing circuits, analyzing electromagnetic fields, or conducting research.Moreover, the concept of inductance and its measurement in abhenry can be observed in everyday technologies. For instance, when you use a smartphone charger, the inductive components within the charger ensure that the correct amount of current flows to charge the battery efficiently. Understanding how inductance works, and by extension the role of units like the abhenry, allows engineers to create more effective and reliable electronic devices.In conclusion, while the abhenry may seem like a niche term within the broader field of physics, it represents a critical aspect of electrical engineering and the study of electromagnetism. By grasping the meaning and application of the abhenry, students and professionals alike can better appreciate the intricacies of electrical systems and contribute to advancements in technology. As we continue to innovate and develop new electronic devices, a solid understanding of units like the abhenry will remain essential for future generations of engineers and scientists.

在物理学和电气工程领域，测量单位在理解支配我们世界的基本原理方面起着至关重要的作用。其中一个单位是abhenry，用于在厘米-克-秒（CGS）系统中测量电感。abhenry被定义为在电流变化为每秒一个abampere时产生一个abvolt的电动势的电路的电感。这一定义可能听起来复杂，但它突显了电流、电压和电感之间的关系，这些都是电磁学中的基本概念。理解abhenry的重要性需要简要探讨电感本身。电感是电导体的一种特性，通过这种特性，电流的变化会在导体自身或附近的导体中产生电动势（EMF）。这一现象是变压器和电感等设备背后的基本原理，这些设备广泛应用于各种电子应用中。abhenry是CGS系统的一部分，尽管与国际单位制（SI）相比，今天使用得较少，但它为电气测量的发展历史提供了宝贵的见解。在SI系统中，电感的单位是亨利（H），其中1亨利等于10^9个abhenry。这个转换因子说明了这两种系统之间的关系，并强调了在研究物理和工程时理解不同单位的重要性。在实际应用中，abhenry可能不如亨利频繁出现，但它的存在突显了科学中测量系统的多样性。工程师和物理学家往往需要根据工作的背景在这些单位之间进行转换，无论他们是在设计电路、分析电磁场还是进行研究。此外，电感的概念及其在abhenry中的测量可以在日常技术中观察到。例如，当你使用智能手机充电器时，充电器内部的电感组件确保正确的电流流入以有效地为电池充电。理解电感的工作原理，以及abhenry等单位的作用，使工程师能够创造出更有效和可靠的电子设备。总之，虽然abhenry在更广泛的物理学领域中似乎是一个小众术语，但它代表了电气工程和电磁学研究的一个关键方面。通过掌握abhenry的含义和应用，学生和专业人士都可以更好地欣赏电气系统的复杂性，并为技术进步做出贡献。随着我们继续创新和开发新的电子设备，对于未来一代工程师和科学家来说，牢固理解像abhenry这样的单位将仍然是必不可少的。