tide predictor

简明释义

潮汐推算机

英英释义

例句

1.The coastal town relies on a reliable 潮汐预测器 for its fishing industry.

这个沿海小镇依赖一个可靠的潮汐预测器来支持其渔业。

2.The fisherman checked the 潮汐预测器 to determine the best time to cast his nets.

渔夫查看了潮汐预测器以确定最佳的撒网时间。

3.Using a 潮汐预测器 can help surfers find the perfect waves.

使用潮汐预测器可以帮助冲浪者找到完美的浪潮。

4.The 潮汐预测器 indicated high tide at 3 PM, so we planned our beach activities accordingly.

根据潮汐预测器，下午3点会有高潮，因此我们相应地安排了海滩活动。

5.Before sailing, it's essential to consult the 潮汐预测器 for safe navigation.

在航行之前，咨询潮汐预测器以确保安全导航是至关重要的。

作文

Understanding the concept of a tide predictor is essential for anyone interested in maritime activities, coastal engineering, or environmental science. A tide predictor is a tool or system that forecasts the rise and fall of sea levels caused by the gravitational effects of the moon and the sun, as well as other factors such as wind and atmospheric pressure. These predictions are crucial for various applications, including navigation, fishing, and beach management.The science behind a tide predictor is based on the understanding of tidal forces. Tides are influenced by the gravitational pull of celestial bodies, primarily the moon, which causes water to bulge out in the direction of the moon. This phenomenon creates high tides, while areas perpendicular to this bulge experience low tides. By analyzing historical tidal data, scientists can develop models that predict future tides with considerable accuracy.There are several methods used in tide predictors. One common method involves harmonic analysis, where astronomers break down tidal data into its constituent frequencies. Each frequency corresponds to a celestial body and its gravitational influence. By summing these frequencies, a comprehensive model of tidal behavior can be created. This model allows users to forecast tides at specific locations over various time frames.In practice, tide predictors are used by mariners to plan their journeys. Knowing the timing and height of tides can mean the difference between a safe passage or running aground. Fishermen also rely on tide predictions to determine the best times to catch certain species of fish, as many fish are more active during specific tidal conditions.Moreover, coastal engineers utilize tide predictors when designing structures such as docks, piers, and seawalls. Understanding tidal patterns helps them ensure that these structures can withstand the forces of nature, thereby protecting coastal communities from erosion and flooding.Environmental scientists also benefit from tide predictors. They study how tides influence ecosystems, particularly in estuaries where freshwater meets saltwater. Tidal movements can affect salinity levels, nutrient distribution, and the habitats of various aquatic species. By predicting tides, scientists can better understand the dynamics of these ecosystems and formulate conservation strategies.In recent years, advancements in technology have significantly improved the accuracy of tide predictors. With the integration of satellite data and sophisticated computer models, predictions are now more reliable than ever. Mobile applications and online platforms provide real-time tide information, making it accessible to the general public. This democratization of data empowers recreational boaters, surfers, and beachgoers to make informed decisions about their activities.In conclusion, a tide predictor is an invaluable tool that serves multiple purposes across various fields. Its ability to forecast tidal movements not only aids in navigation and fishing but also plays a critical role in environmental conservation and coastal engineering. As we continue to advance our understanding of tidal science and improve our predictive technologies, the importance of tide predictors will only grow, highlighting the intricate relationship between humans and the ocean. Understanding this concept is vital for anyone who wishes to engage responsibly with our marine environments.

理解潮汐预测器的概念对于任何对海洋活动、沿海工程或环境科学感兴趣的人来说都是至关重要的。潮汐预测器是一个工具或系统，能够预测由于月球和太阳的引力作用以及风和气压等其他因素造成的海平面升降。这些预测对于导航、捕鱼和海滩管理等各种应用至关重要。潮汐预测器背后的科学基于潮汐力的理解。潮汐受天体引力的影响，主要是月球的引力，它使水在月球的方向上隆起。这种现象产生了高潮，而与这种隆起垂直的区域则经历低潮。通过分析历史潮汐数据，科学家可以开发模型，以相当高的准确性预测未来的潮汐。在潮汐预测器中使用了几种方法。一种常见的方法是谐波分析，天文学家将潮汐数据分解为其组成频率。每个频率对应一个天体及其引力影响。通过将这些频率相加，可以创建一个全面的潮汐行为模型。这个模型允许用户在不同时间范围内预测特定地点的潮汐。在实际应用中，海员使用潮汐预测器来规划他们的航程。知道潮汐的时间和高度可以决定安全通行与否。渔民也依赖潮汐预测来确定捕捉某些鱼类的最佳时机，因为许多鱼在特定潮汐条件下更为活跃。此外，沿海工程师在设计码头、栈桥和海堤等结构时也利用潮汐预测器。了解潮汐模式有助于他们确保这些结构能够承受自然力量，从而保护沿海社区免受侵蚀和洪水的影响。环境科学家也从潮汐预测器中受益。他们研究潮汐如何影响生态系统，特别是在淡水与盐水相遇的河口地区。潮汐运动可以影响盐度水平、养分分布以及各种水生物种的栖息地。通过预测潮汐，科学家可以更好地理解这些生态系统的动态，并制定保护策略。近年来，技术的进步显著提高了潮汐预测器的准确性。随着卫星数据和复杂计算机模型的整合，预测现在比以往任何时候都更可靠。移动应用程序和在线平台提供实时潮汐信息，使公众能够轻松获取。这种数据的民主化使休闲船员、冲浪者和海滩游客能够就他们的活动做出明智的决策。总之，潮汐预测器是一个无价的工具，在各个领域发挥着多重作用。它预测潮汐运动的能力不仅有助于导航和捕鱼，还在环境保护和沿海工程中发挥着关键作用。随着我们继续深化对潮汐科学的理解并改善预测技术，潮汐预测器的重要性只会增加，突显人类与海洋之间错综复杂的关系。理解这一概念对于任何希望负责任地参与我们的海洋环境的人来说都是至关重要的。