harmonic tide-plane

简明释义

平均大潮低低潮面

英英释义

例句

1.The harmonic tide-plane 谐波潮平面 model was used to simulate tidal movements in the bay.

该harmonic tide-plane 谐波潮平面模型用于模拟海湾的潮汐运动。

2.The research team analyzed the effects of the moon's position on the harmonic tide-plane 谐波潮平面 to predict high and low tides accurately.

研究小组分析了月球位置对harmonic tide-plane 谐波潮平面的影响，以准确预测潮汐的高潮和低潮。

3.In marine navigation, understanding the harmonic tide-plane 谐波潮平面 helps in avoiding hazards caused by strong currents.

在海洋导航中，理解harmonic tide-plane 谐波潮平面有助于避免因强流而造成的危险。

4.Understanding the harmonic tide-plane 谐波潮平面 is essential for coastal engineering projects.

理解harmonic tide-plane 谐波潮平面对于海岸工程项目至关重要。

5.Fishermen rely on the predictions made by the harmonic tide-plane 谐波潮平面 to determine the best times to fish.

渔民依靠harmonic tide-plane 谐波潮平面的预测来确定最佳捕鱼时间。

作文

The study of ocean tides is a fascinating subject that intertwines physics, astronomy, and geography. One of the key concepts in understanding tidal movements is the idea of the harmonic tide-plane, which refers to a theoretical plane used to represent the harmonic components of tidal forces acting on a body of water. This concept helps scientists predict the behavior of tides with remarkable accuracy.Tides are primarily caused by the gravitational pull of the moon and the sun on Earth’s oceans. As these celestial bodies move in their orbits, they exert varying gravitational forces on different parts of the Earth. The harmonic tide-plane serves as a framework to analyze these forces, breaking down the complex interactions into simpler sinusoidal components. By doing so, researchers can model how these forces combine to create the observed tidal patterns.Understanding the harmonic tide-plane is essential for various practical applications. For instance, coastal engineers rely on accurate tidal predictions to design structures such as docks, seawalls, and marinas. If the tidal movements are not correctly anticipated, it could lead to catastrophic failures or unsafe conditions for vessels navigating in and out of harbors.Moreover, the harmonic tide-plane also plays a significant role in environmental science. Tidal patterns influence the distribution of marine species, sediment transport, and nutrient cycling within coastal ecosystems. By studying the harmonic components of tides, scientists can better understand how these factors affect biodiversity and ecosystem health.In addition, the harmonic tide-plane has implications for climate change research. Rising sea levels due to global warming can alter tidal ranges and patterns, impacting coastal communities and habitats. Researchers use the principles of the harmonic tide-plane to model future tidal scenarios under different climate change projections, aiding in developing strategies for mitigation and adaptation.Furthermore, the concept of the harmonic tide-plane is not limited to Earth. Astronomers and planetary scientists also apply similar principles when studying other celestial bodies with atmospheres and bodies of water, such as the moons of Jupiter and Saturn. Understanding how tidal forces operate in different environments expands our knowledge of planetary systems and their evolution.In conclusion, the harmonic tide-plane is a crucial concept in the study of tides and their effects on Earth and beyond. It provides a systematic approach to analyzing the complex interactions between gravitational forces and oceanic responses. As we continue to explore the intricacies of our planet’s systems, the significance of the harmonic tide-plane will undoubtedly grow, highlighting the interconnectedness of physical science and environmental stewardship.

海洋潮汐的研究是一个迷人的主题，它交织着物理学、天文学和地理学。理解潮汐运动的一个关键概念是谐波潮面的概念，这指的是一个理论平面，用于表示作用于水体的潮汐力的谐波分量。这个概念帮助科学家以惊人的准确性预测潮汐行为。潮汐主要是由月球和太阳对地球海洋的引力造成的。当这些天体在其轨道上移动时，它们对地球不同部分施加不同的引力。谐波潮面作为分析这些力的框架，将复杂的相互作用分解为更简单的正弦分量。通过这样做，研究人员可以建模这些力量如何结合形成观察到的潮汐模式。理解谐波潮面对于各种实际应用至关重要。例如，沿海工程师依赖准确的潮汐预测来设计码头、防波堤和码头等结构。如果潮汐运动未被正确预测，可能导致灾难性故障或船只在进出港口时出现不安全的情况。此外，谐波潮面在环境科学中也发挥着重要作用。潮汐模式影响海洋物种的分布、沉积物运输和沿海生态系统中的养分循环。通过研究潮汐的谐波分量，科学家可以更好地理解这些因素如何影响生物多样性和生态系统健康。此外，谐波潮面还与气候变化研究有关。由于全球变暖导致的海平面上升可能改变潮汐范围和模式，影响沿海社区和栖息地。研究人员利用谐波潮面的原理来模拟在不同气候变化预测下未来潮汐场景，有助于制定减缓和适应的策略。此外，谐波潮面的概念并不限于地球。天文学家和行星科学家在研究其他具有大气和水体的天体时也应用类似的原理，例如木星和土星的卫星。理解潮汐力如何在不同环境中运作，扩展了我们对行星系统及其演化的知识。总之，谐波潮面是潮汐及其对地球和其他地方影响研究中的一个关键概念。它提供了一种系统的方法来分析引力和海洋响应之间的复杂相互作用。随着我们继续探索地球系统的复杂性，谐波潮面的重要性无疑会增加，突显出物理科学与环境保护之间的相互联系。