normal propagation

简明释义

正常传播

英英释义

例句

1.Engineers must account for normal propagation 正常传播 when designing wireless communication systems.

工程师在设计无线通信系统时必须考虑正常传播 normal propagation。

2.The normal propagation 正常传播 of light can be affected by various atmospheric conditions.

光的正常传播 normal propagation 会受到各种大气条件的影响。

3.Understanding normal propagation 正常传播 patterns is crucial for effective radar operation.

理解正常传播 normal propagation 模式对于有效的雷达操作至关重要。

4.The research focused on the normal propagation 正常传播 of sound waves in different mediums.

研究集中在不同介质中声音波的正常传播 normal propagation。

5.In a well-designed network, the normal propagation 正常传播 of signals ensures reliable communication.

在设计良好的网络中，正常传播 normal propagation 信号确保了可靠的通信。

作文

In the field of physics, the concept of normal propagation refers to the typical or expected manner in which waves, such as sound or light, travel through a medium. Understanding this phenomenon is crucial for various applications, from telecommunications to medical imaging. When we discuss normal propagation in the context of sound waves, we are often referring to how sound travels through air at a consistent speed under standard atmospheric conditions. This principle is fundamental in acoustics, where designers must consider how sound will propagate in different environments. In addition to sound, light also exhibits normal propagation when it travels through transparent materials like glass or water. The behavior of light can change dramatically based on the medium it encounters, leading to phenomena such as refraction and reflection. For example, when light passes from air into water, it bends at the interface due to differences in density. This bending is a deviation from normal propagation, but understanding the normal behavior of light allows scientists and engineers to predict how it will behave in various situations.Furthermore, in the realm of telecommunications, normal propagation plays a significant role in the design and implementation of wireless communication systems. Engineers must account for how radio waves propagate through different terrains and obstacles. Factors such as frequency, wavelength, and environmental conditions can all affect the normal propagation of these waves. By modeling these conditions, engineers can optimize signal strength and clarity, ensuring reliable communication.Moreover, the study of normal propagation extends to fields like geology and meteorology. In geology, seismic waves exhibit normal propagation patterns that help scientists locate earthquakes and understand the Earth's structure. Similarly, meteorologists analyze how weather phenomena propagate normally to predict storms and other atmospheric events. The ability to comprehend these normal patterns is essential for making accurate predictions and decisions in both science and engineering.In conclusion, the term normal propagation encompasses a wide range of applications across various scientific disciplines. Whether it be sound, light, or electromagnetic waves, understanding how these entities propagate under normal conditions is vital for advancements in technology and our comprehension of the natural world. As we continue to explore these concepts, we enhance our ability to innovate and improve the tools and systems that shape our daily lives. The significance of normal propagation cannot be overstated, as it forms the foundation upon which many scientific principles and practical applications are built.

在物理学领域，normal propagation这个概念指的是波（例如声音或光）通过介质传播的典型或预期方式。理解这一现象对于各种应用至关重要，从电信到医学成像。当我们在声音波的上下文中讨论normal propagation时，我们通常指的是声音在标准大气条件下以一致速度穿过空气的方式。这一原理在声学中是基础，设计师必须考虑声音在不同环境中的传播方式。除了声音，光在透明材料（如玻璃或水）中传播时也表现出normal propagation。光的行为会因其遇到的介质而发生剧烈变化，从而导致折射和反射等现象。例如，当光从空气进入水中时，由于密度差异，它在界面处弯曲。这种弯曲是对normal propagation的偏离，但理解光的正常行为使科学家和工程师能够预测它在各种情况下的表现。此外，在电信领域，normal propagation在无线通信系统的设计和实施中发挥着重要作用。工程师必须考虑无线电波如何通过不同地形和障碍物传播。频率、波长和环境条件等因素都会影响这些波的normal propagation。通过建模这些条件，工程师可以优化信号强度和清晰度，确保可靠的通信。此外，normal propagation的研究还扩展到地质和气象等领域。在地质学中，地震波表现出normal propagation模式，帮助科学家定位地震并了解地球的结构。同样，气象学家分析天气现象的正常传播，以预测暴风雨和其他大气事件。理解这些正常模式的能力对于在科学和工程中做出准确的预测和决策至关重要。总之，术语normal propagation涵盖了多个科学学科的广泛应用。无论是声音、光还是电磁波，理解这些实体在正常条件下的传播方式对于技术进步和我们对自然世界的理解至关重要。随着我们继续探索这些概念，我们增强了创新能力，改善了塑造我们日常生活的工具和系统。normal propagation的重要性不容低估，因为它构成了许多科学原理和实际应用的基础。