chronometrical

简明释义

英[ˌkrɒnəˈmetrɪkəl]美[krɑːnəˈmetrɪkəl]

精密时计的

英英释义

单词用法

同义词

反义词

例句

1.Research methodology used in studies on reading processes consists of, among others, the chronometrical experimental methods, verbal protocol and miscue analysis.

阅读过程研究的常用方法包括实验室研究方法、口头报告法、误差分析法等。

2.Research methodology used in studies on reading processes consists of, among others, the chronometrical experimental methods, verbal protocol and miscue analysis.

阅读过程研究的常用方法包括实验室研究方法、口头报告法、误差分析法等。

3.The chronometrical 计时的 features of the new watch are impressive and highly accurate.

新手表的计时的功能令人印象深刻且高度准确。

4.In his research, he focused on chronometrical 计时的 accuracy in historical documents.

在他的研究中，他专注于历史文献中的计时的准确性。

5.Engineers often rely on chronometrical 计时的 measurements to ensure precision in manufacturing processes.

工程师们常常依赖于计时的测量来确保制造过程的精确性。

6.The scientist conducted a series of chronometrical 计时的 experiments to measure the speed of light.

这位科学家进行了系列的计时的实验，以测量光速。

7.The chronometrical 计时的 data collected from the experiment was crucial for the final analysis.

从实验中收集到的计时的数据对最终分析至关重要。

作文

In the world of science and technology, precision is paramount. One area where precision is particularly critical is in timekeeping. The evolution of timekeeping devices has been remarkable, leading to what we now refer to as chronometrical measurements. Chronometrical (计时的) refers to the measurement of time with great accuracy, which has implications not only for everyday life but also for various scientific fields. The importance of chronometrical accuracy can be seen in numerous applications, from navigation to telecommunications.Historically, the need for accurate timekeeping emerged with the advent of long-distance sea travel. Sailors relied on precise time measurements to determine their longitude, which was essential for safe navigation. The invention of the marine chronometer in the 18th century marked a significant breakthrough in chronometrical technology, allowing sailors to keep accurate time at sea, thus revolutionizing maritime exploration. This device was a testament to human ingenuity and the quest for chronometrical precision.In modern times, the significance of chronometrical accuracy has expanded beyond navigation. In scientific research, experiments often require precise timing to ensure valid results. For instance, in physics, the timing of events at the quantum level can influence the outcome of experiments. Researchers utilize advanced chronometrical tools to measure these fleeting moments with incredible precision.Moreover, in the realm of telecommunications, chronometrical synchronization is vital for the functioning of networks. Data transmission relies on the coordination of signals, which requires precise timing to avoid data loss and ensure efficient communication. Without chronometrical accuracy, our modern communication systems would face significant challenges, leading to delays and errors in information exchange.The advancement of technology has further enhanced our ability to achieve chronometrical precision. Atomic clocks, for example, represent the pinnacle of timekeeping technology. These clocks utilize the vibrations of atoms to measure time with astonishing accuracy, to the extent that they can lose only one second over millions of years. Such chronometrical devices are essential for global positioning systems (GPS), which rely on precise timing to provide accurate location data.As we continue to explore the universe, chronometrical measurements become increasingly important. Astronomers use chronometrical techniques to track celestial events, such as eclipses or the movement of planets. Understanding these phenomena requires not only accurate measurements of time but also an appreciation of the vast scales involved in space. In this context, chronometrical accuracy allows us to make sense of the cosmos and our place within it.In conclusion, the term chronometrical encapsulates the essence of precise time measurement, which has profound implications across various fields. From navigation to telecommunications, and from scientific research to astronomy, the quest for chronometrical accuracy drives innovation and enhances our understanding of the world around us. As technology continues to evolve, the importance of chronometrical precision will undoubtedly remain a cornerstone of our advancements, guiding us toward new discoveries and insights into the nature of time itself.

在科学和技术的世界中，精确性至关重要。尤其是在计时设备的领域，精确性显得尤为关键。时间测量设备的演变是显著的，这导致了我们现在所称的chronometrical（计时的）测量。Chronometrical指的是以极高的准确性测量时间，这不仅对日常生活有影响，也对各种科学领域产生了深远的影响。Chronometrical准确性的意义可以在许多应用中看到，从导航到电信。历史上，随着远洋航行的出现，对准确计时的需求逐渐显现。海员依赖精确的时间测量来确定他们的经度，这对于安全导航至关重要。18世纪海洋计时器的发明标志着chronometrical技术的重大突破，使得水手能够在海上保持准确的时间，从而彻底改变了海洋探索。这一设备是人类聪明才智和对chronometrical精确性的追求的见证。在现代，chronometrical准确性的意义超越了导航。在科学研究中，实验往往需要精确的计时以确保结果有效。例如，在物理学中，量子层面事件的时机可能会影响实验的结果。研究人员利用先进的chronometrical工具来以令人难以置信的精度测量这些短暂的时刻。此外，在电信领域，chronometrical同步对于网络的运作至关重要。数据传输依赖于信号的协调，这需要精确的时机以避免数据丢失并确保高效的通信。如果没有chronometrical的准确性，我们现代的通信系统将面临重大挑战，导致信息交流中的延迟和错误。技术的进步进一步提升了我们实现chronometrical精确性的能力。例如，原子钟代表了计时技术的巅峰。这些钟表利用原子的振动来以惊人的准确性测量时间，以至于它们在数百万年内只会损失一秒。这样的chronometrical设备对于全球定位系统（GPS）至关重要，后者依赖精确的计时来提供准确的位置数据。随着我们继续探索宇宙，chronometrical测量变得愈加重要。天文学家使用chronometrical技术来跟踪天体事件，比如日食或行星的运动。理解这些现象不仅需要准确的时间测量，还需要对空间中涉及的巨大尺度的欣赏。在这种背景下，chronometrical的准确性使我们能够理解宇宙及其在其中的位置。总之，chronometrical这个术语概括了精确时间测量的本质，这在各个领域都有深远的影响。从导航到电信，再到科学研究和天文学，追求chronometrical准确性推动了创新，并增强了我们对周围世界的理解。随着技术的不断演进，chronometrical精确性的重要性无疑将继续成为我们进步的基石，引导我们迈向新的发现和对时间本质的深入洞察。