indirect wave

简明释义

间接波

英英释义

例句

1.The artist's use of indirect wave techniques in her painting creates a sense of movement.

这位艺术家在她的画作中使用间接波技术，创造了一种运动感。

2.In oceanography, the study of indirect wave patterns helps scientists understand coastal erosion.

在海洋学中，对间接波模式的研究帮助科学家理解沿海侵蚀。

3.During the conference, experts discussed the implications of indirect wave phenomena in telecommunications.

在会议期间，专家们讨论了间接波现象在电信中的影响。

4.The indirect wave effect can be observed in the way sound travels around obstacles.

可以观察到间接波效应在声音绕过障碍物的传播方式中。

5.The concept of indirect wave is often used in physics to explain how energy can be transferred through different mediums.

概念间接波通常在物理学中用于解释能量如何通过不同的介质传递。

作文

In the realm of physics and engineering, waves play a crucial role in our understanding of various phenomena. One interesting concept that often comes up is the idea of an indirect wave (间接波). This term refers to a type of wave that does not travel directly from its source to the observer but rather takes a more complex path. Understanding indirect waves is essential for many applications, including telecommunications, acoustics, and even seismic studies.To grasp the significance of indirect waves, we must first consider how waves generally propagate. In a straightforward scenario, when you drop a stone into a still pond, it creates ripples that move outward in concentric circles. This is a direct wave, where the energy travels straight from the point of disturbance to the surrounding water. However, in real-world situations, especially in complex environments, waves often encounter obstacles, leading to the creation of indirect waves.For example, consider sound waves traveling through a forest. When a person shouts, the sound waves emanate from their mouth. However, as these waves encounter trees and other obstacles, they reflect, refract, and diffract. The listener may hear the sound not only directly from the source but also through paths that involve multiple reflections and diffractions. These secondary paths create what we refer to as indirect waves. The phenomenon is crucial in understanding how sound behaves in different environments, particularly in architectural acoustics where designers aim to optimize sound quality in concert halls and auditoriums.In telecommunications, the concept of indirect waves becomes even more significant. When transmitting radio signals, the waves can bounce off buildings, mountains, and other structures. This reflection leads to the creation of multiple signal paths, some of which may arrive at the receiver later than others. The combination of these direct and indirect waves can cause interference patterns, affecting the clarity and strength of the received signal. Engineers must account for these factors when designing communication systems to ensure reliable connectivity.Another fascinating application of indirect waves is in the field of seismology. When an earthquake occurs, it generates seismic waves that travel through the Earth. Some of these waves travel directly to seismic stations, while others take longer, indirect routes due to the Earth's complex geology. By analyzing both direct and indirect waves, seismologists can gain insights into the earthquake's location, depth, and magnitude. This information is vital for assessing damage and implementing safety measures in affected areas.In conclusion, the concept of indirect waves (间接波) is fundamental to various scientific fields, illustrating the complexity of wave propagation in different environments. Whether in sound engineering, telecommunications, or seismology, understanding how indirect waves interact with obstacles and other waves is essential for advancing technology and enhancing our comprehension of natural phenomena. As we continue to explore the intricacies of waves, the study of indirect waves will undoubtedly remain a topic of great interest and importance.

在物理和工程领域，波在我们理解各种现象中发挥着至关重要的作用。一个常常出现的有趣概念是“间接波”这个术语。它指的是一种波，不是直接从源头传播到观察者，而是采取更复杂的路径。理解间接波对于许多应用至关重要，包括电信、声学甚至地震研究。为了掌握间接波的重要性，我们首先必须考虑波通常是如何传播的。在一个简单的场景中，当你把石头扔进静止的池塘时，它会产生向外扩散的涟漪。这是一种直接波，能量直接从扰动点传递到周围的水中。然而，在现实世界的情况下，尤其是在复杂环境中，波往往会遇到障碍物，从而导致间接波的产生。例如，考虑声音波通过森林传播的情况。当一个人喊叫时，声音波从他们的嘴里发出。然而，当这些波遇到树木和其他障碍物时，它们会反射、折射和衍射。听众可能不仅会直接听到来自源头的声音，还会通过涉及多次反射和衍射的路径听到声音。这些次级路径创建了我们所称的间接波。这一现象在理解声音在不同环境中的行为时至关重要，特别是在建筑声学中，设计师旨在优化音乐厅和礼堂的音质。在电信领域，间接波的概念变得更加重要。在传输无线电信号时，波可以反弹到建筑物、山脉和其他结构上。这种反射导致多个信号路径的形成，其中一些可能比其他路径稍晚到达接收器。这些直接和间接波的组合可能会导致干扰模式，影响接收到的信号的清晰度和强度。工程师在设计通信系统时必须考虑这些因素，以确保可靠的连接。间接波的另一个迷人应用是在地震学领域。当地震发生时，它会生成穿过地球的地震波。这些波中有一些直接到达地震台站，而另一些则由于地球复杂的地质结构而采取更长的间接路径。通过分析直接和间接波，地震学家可以获得有关地震的位置、深度和震级的见解。这些信息对于评估损害和实施受影响地区的安全措施至关重要。总之，间接波（间接波）的概念是各种科学领域的基础，说明了波在不同环境中传播的复杂性。无论是在声学工程、电信还是地震学中，理解间接波如何与障碍物和其他波相互作用对于推动技术发展和增强我们对自然现象的理解至关重要。随着我们继续探索波的复杂性，间接波的研究无疑将仍然是一个极具兴趣和重要性的主题。