indirect wave

简明释义

间接波

英英释义

例句

1.The oceanographer studied the patterns of the indirect wave to understand its impact on coastal erosion.

海洋学家研究了间接波的模式，以了解其对海岸侵蚀的影响。

2.During the concert, the indirect wave from the speakers created a unique auditory experience for the audience.

在音乐会上，来自扬声器的间接波为观众创造了独特的听觉体验。

3.Researchers found that indirect waves can carry energy over long distances without significant loss.

研究人员发现，间接波可以在长距离内传递能量而不会显著损失。

4.In physics class, we learned about how indirect waves can affect sound transmission in different environments.

在物理课上，我们学习了间接波如何影响不同环境中的声音传播。

5.The engineer used simulations to predict the effects of indirect waves in the design of the new bridge.

工程师使用模拟来预测间接波在新桥设计中的影响。

作文

In the realm of physics and engineering, the concept of waves plays a crucial role in understanding various phenomena. One type of wave that is often discussed is the indirect wave, which refers to a wave that does not travel directly from its source to the observer. Instead, it takes a longer path, often reflecting off surfaces or interacting with other waves before reaching its destination. This concept can be observed in numerous real-world applications, including acoustics, optics, and even in the context of communication technologies.To illustrate the significance of indirect wave, consider the example of sound waves in a concert hall. When a musician plays an instrument, the sound produced travels outward in all directions. However, not all of the sound reaches the audience directly; some of it bounces off the walls and ceiling, creating an echo. These reflected sound waves are considered indirect waves, as they have taken a longer route to reach the listeners. The quality of sound in such environments heavily depends on how these indirect waves interact with each other and with the direct sound from the instrument.Similarly, in the field of optics, light can also exhibit indirect waves. When light strikes a surface, it can reflect and refract, creating complex patterns of light that may not originate directly from the light source. This phenomenon is particularly important in designing optical instruments, such as cameras and telescopes, where understanding the behavior of both direct and indirect waves is essential for capturing clear images.Moreover, in the modern age of technology, communication systems rely heavily on the principles of wave propagation. For instance, radio waves, which are used in broadcasting and wireless communication, can encounter various obstacles like buildings and mountains. As these waves navigate around such barriers, they create indirect waves that can still carry information to distant receivers. Understanding how these waves behave is vital for improving signal strength and clarity.The study of indirect waves is not only limited to physics but also extends to fields like psychology and sociology. In human interactions, the concept can be metaphorically applied to communication styles. Sometimes, people do not express their thoughts or feelings directly; instead, they communicate through hints, body language, or indirect references. This form of communication can be likened to indirect waves, where the intended message takes a longer path to be understood by the listener.In conclusion, the concept of indirect waves is multifaceted and plays a significant role in various disciplines. Whether in the physical sciences, technology, or even in interpersonal communication, understanding how these waves function can lead to better designs, clearer communication, and enhanced experiences. As we continue to explore the complexities of waves, both direct and indirect, we gain deeper insights into the world around us and the ways we connect with one another.

在物理和工程领域，波的概念在理解各种现象中起着至关重要的作用。一个经常被讨论的波的类型是间接波，它指的是一种不直接从源头传播到观察者的波。相反，它采取了更长的路径，通常在到达目的地之前会反射或与其他波相互作用。这个概念可以在许多现实世界的应用中观察到，包括声学、光学，甚至在通信技术的背景下。为了说明间接波的重要性，考虑一下音乐会大厅中声波的例子。当音乐家演奏乐器时，产生的声音向外传播。然而，并不是所有的声音都直接到达观众；其中一些声音会反弹到墙壁和天花板上，产生回声。这些反射声波被视为间接波，因为它们经过更长的路线到达听众。在这种环境中，声音的质量在很大程度上取决于这些间接波如何相互作用以及如何与乐器的直接声音相互作用。类似地，在光学领域，光也可以表现出间接波。当光线撞击一个表面时，它可能会反射和折射，产生复杂的光模式，这些光模式可能并不直接来自光源。这种现象在设计光学仪器（如相机和望远镜）时尤为重要，因为理解直接和间接波的行为对于捕捉清晰图像至关重要。此外，在现代科技时代，通信系统在很大程度上依赖于波传播的原理。例如，用于广播和无线通信的无线电波，可以遇到建筑物和山脉等各种障碍。当这些波绕过这样的障碍物时，它们会产生间接波，这些波仍然可以将信息传递给远处的接收器。理解这些波的行为对于改善信号强度和清晰度至关重要。对间接波的研究不仅限于物理学，还扩展到心理学和社会学等领域。在人际互动中，这一概念可以比喻性地应用于沟通风格。有时，人们并不直接表达自己的想法或感受；相反，他们通过暗示、肢体语言或间接引用进行交流。这种形式的沟通可以类比为间接波，其意图的信息需要更长的路径才能被听者理解。总之，间接波的概念是多方面的，在各个学科中发挥着重要作用。无论是在物理科学、技术还是人际沟通中，理解这些波的功能可以导致更好的设计、更清晰的沟通和更丰富的体验。随着我们继续探索波的复杂性，无论是直接的还是间接的，我们对周围世界和彼此之间的联系有了更深入的认识。