electric distance

简明释义

光距离单位

英英释义

例句

1.Understanding the electric distance is crucial for optimizing circuit designs.

理解电距离对于优化电路设计至关重要。

2.The engineers calculated the electric distance to ensure efficient energy transfer between the two points.

工程师们计算了电距离以确保两个点之间的能量有效传输。

3.To reduce losses, we need to minimize the electric distance in our wiring layout.

为了减少损耗，我们需要在布线布局中最小化电距离。

4.In telecommunications, the electric distance can affect signal strength and quality.

在电信中，电距离会影响信号的强度和质量。

5.The electric distance between the two nodes was measured to ensure proper connectivity.

测量了两个节点之间的电距离以确保正确的连接性。

作文

In the realm of physics and electrical engineering, the term electric distance refers to the measure of separation between two points in an electric field. This concept is crucial for understanding how electric forces operate over a distance and how they can affect charged particles. The electric distance plays a significant role in various applications, from designing electronic circuits to analyzing the behavior of charged particles in accelerators. To elaborate further, when we talk about electric distance, we often consider it in the context of Coulomb's law, which describes the force between two charged objects. According to this law, the electric force is inversely proportional to the square of the distance between the charges. Therefore, as the electric distance increases, the force exerted by one charge on another diminishes significantly. This principle is not only fundamental in theoretical physics but also has practical implications in everyday technology, such as capacitors and transistors.Moreover, understanding electric distance is essential when dealing with electric fields generated by charged bodies. The strength of an electric field decreases as you move further away from the source charge, illustrating the importance of electric distance in determining the field's influence on surrounding charges. For instance, if a positive charge is placed at a certain point, the electric field it generates will affect other charges in its vicinity, but the strength of that effect will depend on the electric distance separating them.In practical terms, engineers and scientists often need to calculate electric distance when designing systems that rely on the interaction of electric fields. For example, in wireless communication, the effective range of signals is influenced by the electric distance between transmitting and receiving antennas. The greater the distance, the weaker the signal becomes, which can lead to challenges in maintaining clear communication.Furthermore, the concept of electric distance extends beyond just simple calculations. In advanced fields like quantum mechanics, the interactions between particles can be influenced by their electric distance in ways that are not immediately intuitive. For instance, phenomena such as tunneling and entanglement can exhibit behaviors that challenge our classical understanding of distance and force.In conclusion, the term electric distance encapsulates a fundamental aspect of how electric forces operate between charged entities. Its implications stretch across various domains of science and technology, highlighting the importance of distance in the behavior of electric fields and forces. By grasping the significance of electric distance, we can better appreciate the intricate dance of charged particles that underpins much of modern physics and engineering. Understanding this concept not only aids in academic pursuits but also enhances our ability to innovate and improve the technologies that shape our world today.

在物理学和电气工程领域，术语电距离指的是电场中两个点之间的分离度。这个概念对于理解电力如何在距离上运作以及它们如何影响带电粒子至关重要。电距离在各种应用中发挥着重要作用，从设计电子电路到分析加速器中带电粒子的行为。进一步阐述，当我们谈论电距离时，我们通常会在库仑定律的背景下考虑它，该定律描述了两个带电物体之间的力。根据这一定律，电力与两电荷之间距离的平方成反比。因此，随着电距离的增加，一个电荷对另一个电荷施加的力显著减小。这个原则不仅在理论物理中是基础的，而且在日常技术中也具有实际意义，例如电容器和晶体管。此外，理解电距离在处理由带电体生成的电场时至关重要。电场的强度随着你远离源电荷而减弱，这说明了电距离在决定场对周围电荷影响中的重要性。例如，如果在某一点放置一个正电荷，它产生的电场将影响其附近的其他电荷，但这种影响的强度将取决于它们之间的电距离。在实际应用中，工程师和科学家在设计依赖电场相互作用的系统时，通常需要计算电距离。例如，在无线通信中，信号的有效范围受到发射天线和接收天线之间的电距离的影响。距离越大，信号就越弱，这可能导致保持清晰通信的挑战。此外，电距离的概念不仅仅局限于简单的计算。在量子力学等高级领域，粒子之间的相互作用可能会受到它们的电距离的影响，以一种并不立即直观的方式。例如，隧穿和纠缠等现象可以表现出挑战我们经典理解的距离和力的行为。总之，术语电距离概括了带电实体之间电力运作的基本方面。它的影响跨越科学和技术的多个领域，突显了距离在电场和力行为中的重要性。通过掌握电距离的重要性，我们可以更好地欣赏支撑现代物理学和工程学的带电粒子之间复杂的舞蹈。理解这个概念不仅有助于学术追求，还增强了我们创新和改善塑造当今世界技术的能力。