harmonic tide plane

简明释义

平均大潮低低潮面

英英释义

例句

1.The researchers used the harmonic tide plane to analyze the tidal patterns in the coastal region.

研究人员使用谐波潮汐平面分析沿海地区的潮汐模式。

2.Using the harmonic tide plane, we can predict the best times for fishing in the bay.

利用谐波潮汐平面，我们可以预测在海湾中捕鱼的最佳时间。

3.Understanding the harmonic tide plane is crucial for predicting high and low tides accurately.

理解谐波潮汐平面对于准确预测高潮和低潮至关重要。

4.The harmonic tide plane model helped scientists understand the impact of climate change on sea levels.

这个谐波潮汐平面模型帮助科学家理解气候变化对海平面的影响。

5.Marine engineers often refer to the harmonic tide plane when designing coastal structures.

海洋工程师在设计沿海结构时常常参考谐波潮汐平面。

作文

The study of tides has fascinated scientists for centuries, as they play a crucial role in the Earth's ecosystem and human activities. One key concept in understanding tides is the harmonic tide plane, which refers to a theoretical surface that represents the combined effects of various tidal constituents. These constituents arise from the gravitational forces exerted by the moon, sun, and other celestial bodies, resulting in periodic changes in sea levels. By analyzing the harmonic tide plane, researchers can better predict tidal patterns, which is essential for navigation, fishing, and coastal management.Tides are not merely a result of the moon's gravitational pull; they are influenced by several factors, including the Earth's rotation, the shape of coastlines, and ocean floor topography. The harmonic tide plane simplifies these complex interactions into a manageable model. This model allows scientists to decompose the tidal signal into its constituent parts, each with a specific frequency and amplitude. For instance, the principal lunar semi-diurnal tide, known as M2, is one of the most significant components of the harmonic tide plane. It occurs twice daily due to the moon's orbit around the Earth.Understanding the harmonic tide plane is vital for predicting not only high and low tides but also their timing and magnitude. This information is invaluable for various sectors, including shipping and marine biology. For example, fishermen rely on accurate tidal predictions to determine the best times for catching certain species, as many fish are more active during specific tidal phases. Similarly, coastal communities must understand tidal patterns to implement effective flood defense measures and sustainable development practices.Moreover, the harmonic tide plane is essential for climate change studies. As global temperatures rise, sea levels are expected to fluctuate more dramatically due to melting ice caps and thermal expansion of seawater. By incorporating the harmonic tide plane into climate models, scientists can forecast how these changes will impact coastal areas, helping governments and organizations prepare for potential challenges.In summary, the harmonic tide plane serves as a foundational concept in tidal analysis, enabling researchers to decode the intricate dynamics of ocean tides. Its applications span across various fields, from environmental science to maritime industries, highlighting its significance in our understanding of Earth's systems. As we continue to explore the complexities of our planet, the harmonic tide plane will undoubtedly remain a critical tool in navigating the challenges posed by both natural phenomena and human activities.In conclusion, the harmonic tide plane not only enhances our comprehension of tidal mechanics but also assists in practical applications that affect daily life and long-term planning. As we advance in our scientific endeavors, the insights gained from studying the harmonic tide plane will be instrumental in fostering a sustainable future for our coastal environments and communities.

潮汐的研究几个世纪以来一直吸引着科学家，因为它们在地球生态系统和人类活动中发挥着至关重要的作用。理解潮汐的一个关键概念是谐波潮平面，它指的是代表各种潮汐成分综合效应的理论表面。这些成分源于月球、太阳和其他天体施加的引力，导致海平面的周期性变化。通过分析谐波潮平面，研究人员可以更好地预测潮汐模式，这对航行、捕鱼和沿海管理至关重要。潮汐不仅仅是月球引力的结果；它们还受到多个因素的影响，包括地球的自转、海岸线的形状和海底地形。谐波潮平面将这些复杂的相互作用简化为一个可管理的模型。该模型允许科学家将潮汐信号分解为其组成部分，每个部分都有特定的频率和幅度。例如，主要的月球半日潮，称为M2，是谐波潮平面最重要的成分之一。它由于月球绕地球的轨道而每天发生两次。理解谐波潮平面对于预测高低潮及其时间和幅度至关重要。这些信息对多个行业都无价，例如航运和海洋生物学。例如，渔民依赖准确的潮汐预测来确定捕捞某些物种的最佳时机，因为许多鱼类在特定的潮汐阶段更为活跃。同样，沿海社区必须了解潮汐模式，以实施有效的防洪措施和可持续发展实践。此外，谐波潮平面对气候变化研究至关重要。随着全球气温上升，预计由于冰盖融化和海水热膨胀，海平面波动将更加剧烈。通过将谐波潮平面纳入气候模型，科学家可以预测这些变化将如何影响沿海地区，帮助政府和组织为潜在挑战做好准备。总之，谐波潮平面作为潮汐分析的基础概念，使研究人员能够解码海洋潮汐的复杂动态。它的应用跨越多个领域，从环境科学到海事工业，突显了它在我们理解地球系统中的重要性。随着我们继续探索我们星球的复杂性，谐波潮平面无疑将成为应对自然现象和人类活动所带来的挑战的重要工具。最后，谐波潮平面不仅增强了我们对潮汐机制的理解，还协助了影响日常生活和长期规划的实际应用。随着我们在科学事业上的进步，从研究谐波潮平面中获得的见解将对促进沿海环境和社区的可持续未来起到重要作用。