sea rate of chronometer

简明释义

海上的日差率

英英释义

例句

1.Before setting sail, the crew verified the sea rate of chronometer against standard time.

在起航前，船员们将海洋时计的海速与标准时间进行了核对。

2.Understanding the sea rate of chronometer helps in adjusting the ship's course effectively.

理解海洋时计的海速有助于有效调整船只航向。

3.The sailor checked the sea rate of chronometer to ensure accurate navigation.

水手检查了海洋时计的海速以确保导航准确。

4.To avoid any discrepancies, it's crucial to calibrate the sea rate of chronometer regularly.

为了避免任何差异，定期校准海洋时计的海速是至关重要的。

5.The captain relied on the sea rate of chronometer for precise timing during the voyage.

船长依赖于海洋时计的海速在航行中进行精确计时。

作文

The concept of the sea rate of chronometer is pivotal in understanding the accuracy and reliability of timekeeping devices, particularly in maritime navigation. A chronometer is a highly precise instrument used to measure time, which is crucial for determining a ship's longitude at sea. The sea rate of chronometer refers to the variation in the timekeeping accuracy of a chronometer when it is exposed to the conditions of the sea, such as temperature fluctuations, humidity, and movement caused by waves. In the age of exploration, sailors relied heavily on accurate timekeeping to navigate the vast oceans. The ability to calculate longitude was essential for safe and efficient travel. However, the sea environment posed numerous challenges to the functionality of chronometers. For instance, changes in temperature could cause the materials inside the chronometer to expand or contract, leading to potential inaccuracies in time measurement. To address these challenges, horologists developed various mechanisms to improve the sea rate of chronometer. These included using temperature-compensating materials and creating designs that minimized the impact of motion on the gears and springs. The goal was to create a timekeeping device that would maintain its accuracy despite the harsh conditions at sea. The significance of the sea rate of chronometer extends beyond just navigation; it represents the culmination of human ingenuity in the quest for precision. The advancements made in chronometer technology laid the groundwork for modern timekeeping devices. Today, we take for granted the accuracy of our watches and clocks, but it is essential to recognize the historical context in which these innovations emerged. Moreover, the study of the sea rate of chronometer has implications for various fields, including astronomy, telecommunications, and even GPS technology. Understanding how timekeeping can be affected by environmental factors helps engineers design better systems that rely on precise timing. For example, GPS satellites must account for relativistic effects and variations in timekeeping due to gravitational differences, which were first understood through the lens of chronometer accuracy. In conclusion, the sea rate of chronometer is not merely a technical specification; it embodies the challenges faced by navigators and scientists alike throughout history. The pursuit of accurate timekeeping has driven innovation and has had a lasting impact on our ability to explore and understand the world around us. As we continue to develop new technologies, the lessons learned from the past will remain relevant, reminding us of the importance of precision and reliability in our endeavors. Understanding the sea rate of chronometer allows us to appreciate the intricate relationship between time, navigation, and technology. It encourages us to reflect on how far we have come and inspires us to continue pushing the boundaries of what is possible in the realm of timekeeping and beyond.

“海洋计时器的海率”这一概念对于理解时间测量设备的准确性和可靠性至关重要，尤其是在海洋导航中。计时器是一种高精度仪器，用于测量时间，这对于确定船只在海上的经度至关重要。“海洋计时器的海率”指的是计时器在暴露于海洋条件下（例如温度波动、湿度和因波浪引起的运动）时，时间保持准确性的变化。在探索时代，水手们非常依赖准确的时间测量来导航广阔的海洋。计算经度的能力对于安全和高效的旅行至关重要。然而，海洋环境对计时器的功能提出了许多挑战。例如，温度变化可能导致计时器内部的材料膨胀或收缩，从而导致时间测量的潜在不准确性。为了应对这些挑战，钟表匠们开发了各种机制以改善“海洋计时器的海率”。这些包括使用温度补偿材料以及创造设计以最小化运动对齿轮和弹簧的影响。目标是创造一种尽管在恶劣的海洋条件下仍能保持准确性的计时设备。“海洋计时器的海率”的重要性不仅限于导航；它代表了人类在追求精确方面的聪明才智的结晶。计时器技术的进步为现代时间测量设备奠定了基础。今天，我们理所当然地认为我们的手表和时钟的准确性，但认识到这些创新出现的历史背景是至关重要的。此外，研究“海洋计时器的海率”对多个领域都有影响，包括天文学、通信甚至GPS技术。理解环境因素如何影响时间测量有助于工程师设计更好的依赖于精确时机的系统。例如，GPS卫星必须考虑相对论效应和由于引力差异导致的时间测量变化，而这些最初是通过计时器准确性的视角得以理解的。总之，“海洋计时器的海率”不仅仅是一个技术规范；它体现了历史上航海者和科学家所面临的挑战。追求准确的时间测量推动了创新，并对我们探索和理解周围世界的能力产生了持久影响。随着我们继续开发新技术，从过去学到的教训将保持相关性，提醒我们在努力中精确性和可靠性的重要性。理解“海洋计时器的海率”使我们能够欣赏时间、导航和技术之间复杂的关系。它鼓励我们反思我们走过的路，并激励我们继续推动时间测量及其他领域可能性的边界。