wave depression

简明释义

锋面低压

英英释义

例句

1.In oceanography, wave depression 波浪低谷 is crucial for predicting wave patterns.

在海洋学中，波浪低谷 wave depression 对于预测波浪模式至关重要。

2.The wave depression 波浪低谷 observed after the storm indicated a significant drop in water levels.

风暴过后观察到的波浪低谷 wave depression 表明水位显著下降。

3.The scientists measured the wave depression 波浪低谷 during the storm to understand its impact on coastal erosion.

科学家在风暴期间测量了波浪低谷 wave depression，以了解其对海岸侵蚀的影响。

4.Understanding wave depression 波浪低谷 helps in designing better coastal defenses.

理解波浪低谷 wave depression 有助于设计更好的海岸防御措施。

5.The wave depression 波浪低谷 caused by the submarine earthquake was recorded by several buoys.

由海底地震引起的波浪低谷 wave depression 被多个浮标记录下来。

作文

In the world of physics and engineering, the term wave depression refers to a specific phenomenon that occurs when the amplitude of a wave decreases, resulting in a lower energy state. This concept is particularly relevant in the study of various types of waves, including sound waves, electromagnetic waves, and water waves. Understanding wave depression is crucial for many applications, from designing efficient soundproofing materials to predicting oceanic behavior during storms.To illustrate the importance of wave depression, consider the case of ocean waves. When a storm brews over the sea, it generates powerful waves that can travel vast distances. As these waves approach the shore, they begin to interact with the seabed, causing their amplitude to change. This interaction often leads to a wave depression, where the height of the waves diminishes as they lose energy. Such changes can significantly impact coastal ecosystems and human activities, such as fishing and surfing.In acoustics, wave depression plays a vital role in sound transmission. When sound waves pass through different mediums, such as air and water, their speed and amplitude can change. For example, if sound travels from air into water, it may experience a wave depression due to the denser medium. This phenomenon is essential for understanding how sound behaves in various environments, which can be particularly useful in fields like underwater communication and marine biology.Moreover, wave depression can also be observed in the context of electromagnetic waves. When light waves encounter obstacles or media with varying refractive indices, they may undergo changes in amplitude and intensity. This alteration can cause a wave depression, affecting how we perceive light and color. For instance, the phenomenon of diffraction can lead to a reduction in the intensity of light waves, demonstrating the practical implications of this concept in optics and photography.In summary, the concept of wave depression is integral to our understanding of wave behavior across various scientific disciplines. Whether in the context of oceanography, acoustics, or optics, recognizing how and why wave depression occurs allows scientists and engineers to develop better technologies and strategies for managing wave-related phenomena. As we continue to explore the intricacies of wave mechanics, the significance of wave depression will undoubtedly remain a key area of focus, driving innovation and enhancing our comprehension of the natural world.Ultimately, grasping the implications of wave depression not only enriches our scientific knowledge but also equips us with the tools necessary to address real-world challenges. From improving sound quality in concert halls to predicting the impact of climate change on ocean waves, the applications of this concept are vast and varied. As we move forward, it is essential to keep studying and applying the principles of wave depression to further our understanding and improve our interactions with the environment around us.

在物理和工程学的世界中，术语wave depression指的是一种特定现象，当波的振幅减小，导致能量状态降低时，就会发生这种现象。这个概念在研究各种类型的波（包括声波、电磁波和水波）时尤为重要。理解wave depression对于许多应用至关重要，从设计高效的隔音材料到预测风暴期间的海洋行为。为了说明wave depression的重要性，考虑海洋波浪的案例。当风暴在海面上形成时，它会产生强大的波浪，这些波浪可以传播很远的距离。当这些波浪接近海岸时，它们开始与海底相互作用，导致它们的振幅发生变化。这种相互作用通常会导致wave depression，波浪的高度因失去能量而减小。这种变化可能会对沿海生态系统和人类活动（如捕鱼和冲浪）产生重大影响。在声学中，wave depression在声音传播中发挥着重要作用。当声波通过不同介质（如空气和水）时，它们的速度和振幅可能会发生变化。例如，当声音从空气传播到水中时，由于水的密度更大，声音可能会经历wave depression。这一现象对于理解声音在各种环境中的行为至关重要，尤其在水下通信和海洋生物学等领域中。此外，在电磁波的背景下，也可以观察到wave depression。当光波遇到障碍物或具有不同折射率的介质时，它们的振幅和强度可能会发生变化。这种改变可能导致wave depression，影响我们对光和颜色的感知。例如，衍射现象可能导致光波的强度降低，展示了这一概念在光学和摄影中的实际意义。总之，wave depression的概念对于我们理解各种科学学科中的波动行为至关重要。无论是在海洋学、声学还是光学的背景下，认识到wave depression的发生方式和原因，使科学家和工程师能够开发更好的技术和策略来管理与波相关的现象。随着我们继续探索波动力学的复杂性，wave depression的重要性无疑将成为一个关键的研究领域，推动创新并增强我们对自然世界的理解。最终，掌握wave depression的影响不仅丰富了我们的科学知识，还为我们提供了应对现实世界挑战所需的工具。从改善音乐厅的音质到预测气候变化对海洋波浪的影响，这一概念的应用广泛而多样。随着我们向前发展，继续研究和应用wave depression的原理对于进一步理解和改善我们与周围环境的互动至关重要。