tidal amplitude

简明释义

潮幅

英英释义

例句

1.The fishermen planned their trip based on the predicted tidal amplitude for better catch.

渔民根据预测的潮汐幅度计划他们的出海，以获得更好的捕捞效果。

2.During the full moon, the tidal amplitude tends to be higher due to gravitational forces.

在满月期间，由于引力作用，潮汐幅度往往会更高。

3.In coastal engineering, knowing the tidal amplitude is crucial for designing effective seawalls.

在沿海工程中，了解潮汐幅度对设计有效的海堤至关重要。

4.Researchers are studying the relationship between tidal amplitude and marine biodiversity.

研究人员正在研究潮汐幅度与海洋生物多样性之间的关系。

5.The scientist measured the tidal amplitude to understand the effects of climate change on sea levels.

科学家测量了潮汐幅度以了解气候变化对海平面的影响。

作文

Tides are one of the most fascinating natural phenomena on Earth. They are caused by the gravitational pull of the moon and the sun, which creates a rhythmic rise and fall of sea levels. Understanding the concept of tidal amplitude is crucial for comprehending how tides work and their impact on our environment. The term tidal amplitude refers to the vertical distance between the highest point of the tide, known as high tide, and the lowest point, known as low tide. This measurement is significant because it helps scientists and researchers predict tidal patterns and their effects on coastal ecosystems, navigation, and human activities.The tidal amplitude can vary significantly depending on several factors, including geographical location, the shape of the coastline, and the alignment of the sun and moon. For instance, in some locations, especially those with wide continental shelves, the tidal amplitude can be quite large, leading to extreme high and low tides. Conversely, in areas where the coastline is steep or narrow, the tidal amplitude may be minimal. Understanding these variations is essential for local communities that rely on fishing, shipping, and tourism, as they must adapt their activities according to the tidal cycles.Moreover, the tidal amplitude can also be influenced by meteorological conditions such as wind and atmospheric pressure. Storm surges, for example, can temporarily increase the tidal amplitude, leading to flooding in coastal regions. This phenomenon emphasizes the importance of monitoring tidal patterns and understanding their implications for climate change and sea-level rise. As global temperatures continue to rise, the melting of polar ice caps contributes to higher sea levels, which can further amplify the tidal amplitude in certain areas, posing risks to coastal communities.In addition to its environmental significance, the tidal amplitude has practical applications in various fields. For instance, engineers and urban planners must consider tidal patterns when designing infrastructure such as bridges, ports, and seawalls. Accurate predictions of the tidal amplitude can help prevent costly damages and ensure the safety of these structures. Similarly, fishermen and boaters rely on tidal information to optimize their activities, ensuring they navigate safely and effectively.Education about tidal amplitude is also essential for fostering a greater appreciation of our oceans and their dynamics. Schools and educational institutions can incorporate lessons about tides into their science curricula, highlighting the interconnectedness of natural systems. By understanding how tidal amplitude affects marine life, students can gain insights into the delicate balance of ecosystems and the importance of conservation efforts.In conclusion, the concept of tidal amplitude plays a vital role in understanding the behavior of tides and their effects on our planet. From influencing coastal ecosystems to impacting human activities, the tidal amplitude is a key factor that deserves attention. As we continue to face challenges related to climate change and environmental conservation, a deeper understanding of tides and their dynamics will be essential for sustainable development and the protection of our coastlines.

潮汐是地球上最迷人的自然现象之一。它们是由月球和太阳的引力造成的，形成了海平面的有规律的升降。理解潮汐幅度的概念对于理解潮汐的运作及其对我们环境的影响至关重要。术语潮汐幅度指的是潮汐的最高点，即高潮，与最低点，即低潮之间的垂直距离。这一测量很重要，因为它帮助科学家和研究人员预测潮汐模式及其对沿海生态系统、航行和人类活动的影响。潮汐幅度可能因多个因素而显著变化，包括地理位置、海岸线的形状以及太阳和月球的排列。例如，在某些地区，尤其是那些拥有宽广大陆架的地方，潮汐幅度可能相当大，导致极端的高潮和低潮。相反，在海岸线陡峭或狭窄的地区，潮汐幅度可能会很小。理解这些变化对依赖渔业、航运和旅游的地方社区至关重要，因为他们必须根据潮汐周期调整他们的活动。此外，气象条件如风和气压也会影响潮汐幅度。风暴潮，例如，可能会暂时增加潮汐幅度，导致沿海地区的洪水。这一现象强调了监测潮汐模式和理解其对气候变化和海平面上升影响的重要性。随着全球温度的持续上升，极地冰盖的融化导致海平面升高，这可能进一步加大某些地区的潮汐幅度，对沿海社区构成风险。除了环境意义外，潮汐幅度在多个领域也具有实际应用。例如，工程师和城市规划者在设计基础设施如桥梁、港口和海堤时，必须考虑潮汐模式。准确预测潮汐幅度可以帮助防止昂贵的损失，确保这些结构的安全。同样，渔民和船员依靠潮汐信息优化他们的活动，确保安全有效地航行。关于潮汐幅度的教育也对增强人们对海洋及其动态的欣赏至关重要。学校和教育机构可以将潮汐的课程纳入科学课程中，强调自然系统的相互联系。通过理解潮汐幅度如何影响海洋生物，学生可以深入了解生态系统的微妙平衡和保护努力的重要性。总之，潮汐幅度的概念在理解潮汐行为及其对我们星球的影响中起着至关重要的作用。从影响沿海生态系统到影响人类活动，潮汐幅度是一个值得关注的关键因素。随着我们继续面临与气候变化和环境保护相关的挑战，更深入地理解潮汐及其动态将对可持续发展和保护我们的海岸线至关重要。