chronometric

简明释义

英[ˌkrɒnəʊˈmetrɪk]美[krɑnəˈmetrɪk]

adj. 精密时计的

英英释义

单词用法

同义词

反义词

例句

1.The orders for the next survey were to continue the charting work in South America, as well as run a chain of chronometric readings around the globe.

二次考察的任务是继续南美的海图绘制工作。以及记录环球里程时刻数据链。

2.The orders for the next survey were to continue the charting work in South America, as well as run a chain of chronometric readings around the globe.

二次考察的任务是继续南美的海图绘制工作。以及记录环球里程时刻数据链。

3.In archaeology, chronometric 计时的 dating methods help determine the age of artifacts.

在考古学中，计时的年代测定方法有助于确定文物的年龄。

4.The scientist used a chronometric 计时的 device to measure the time intervals of the experiment.

科学家使用了一种计时的设备来测量实验的时间间隔。

5.To ensure precise navigation, the sailors relied on chronometric 计时的 instruments.

为了确保精确导航，水手们依赖于计时的仪器。

6.The chronometric 计时的 accuracy of the new watch was impressive.

这款新手表的计时的精确度令人印象深刻。

7.The chronometric 计时的 features of the app allowed users to track their workout times accurately.

该应用程序的计时的功能使用户能够准确跟踪他们的锻炼时间。

作文

The study of time measurement has fascinated humans for centuries. From the sundials of ancient civilizations to the precise atomic clocks used today, our ability to measure time accurately has evolved dramatically. One term that encapsulates this evolution is chronometric, which refers to the science of measuring time with precision. Understanding the significance of chronometric methods in our daily lives can provide insight into how deeply intertwined we are with timekeeping. In modern society, we rely heavily on chronometric devices to manage our schedules and coordinate activities. The clocks on our walls, the watches on our wrists, and the timers on our smartphones all serve to keep us in sync with the world around us. Accurate time measurement is crucial for various sectors, including transportation, communication, and even healthcare. For instance, in aviation, precise timing is essential for flight schedules and air traffic control. Any discrepancies in chronometric data could lead to significant delays or even accidents. Moreover, the importance of chronometric accuracy extends to scientific research. In fields such as physics and astronomy, the ability to measure time with utmost precision is vital for experiments and observations. For example, scientists studying the behavior of particles at high speeds require chronometric measurements to understand their interactions and movements. Similarly, astronomers depend on accurate timekeeping to track celestial events and calculate distances between stars and galaxies. The history of chronometric advancements is a testament to human ingenuity. The invention of the mechanical clock in the Middle Ages marked a significant turning point in timekeeping. This innovation allowed for more reliable and consistent measurements of time compared to previous methods. Later, the development of pendulum clocks by Christiaan Huygens in the 17th century further improved accuracy, leading to the establishment of standardized timekeeping systems. As technology progressed, the introduction of quartz clocks in the 20th century revolutionized chronometric accuracy. These clocks use the vibrations of quartz crystals to maintain precise time, making them far more reliable than their mechanical predecessors. Today, atomic clocks represent the pinnacle of chronometric technology, capable of measuring time to within billionths of a second. Such precision is not merely academic; it has practical applications in global positioning systems (GPS), telecommunications, and even the synchronization of financial transactions. In conclusion, the term chronometric encompasses a vast field of study that is integral to our understanding of time and its measurement. As we continue to innovate and improve our timekeeping technologies, the implications of chronometric accuracy will only grow in importance. Whether in our personal lives or in the broader scope of scientific inquiry, the ability to measure time precisely remains a cornerstone of progress. It is essential for us to appreciate the role of chronometric advancements in shaping our world and facilitating our daily activities.

时间测量的研究数百年来一直吸引着人类。从古代文明的日晷到今天精确的原子钟，我们准确测量时间的能力发生了巨大的变化。一个能够概括这种演变的术语是chronometric，它指的是精确测量时间的科学。理解chronometric 方法在我们日常生活中的重要性，可以让我们洞察时间与我们生活的紧密联系。在现代社会中，我们在日常生活中极度依赖chronometric设备来管理我们的日程和协调活动。墙上的时钟、手腕上的手表以及智能手机上的计时器，都用于帮助我们与周围的世界保持同步。准确的时间测量对交通、通信甚至医疗等各个领域至关重要。例如，在航空业中，精确的时间对于航班安排和空中交通控制至关重要。任何chronometric数据的差异都可能导致重大延误甚至事故。此外，chronometric准确性的意义还扩展到科学研究。在物理学和天文学等领域，能够极为精确地测量时间对于实验和观察至关重要。例如，研究高速粒子行为的科学家需要chronometric测量来理解它们的相互作用和运动。同样，天文学家依赖于准确的时间记录来跟踪天体事件并计算星星和星系之间的距离。chronometric进步的历史证明了人类的聪明才智。机械钟的发明标志着时间测量的一个重要转折点。这一创新使得与之前的方法相比，时间的测量更加可靠和一致。后来，克里斯蒂安·惠更斯在17世纪开发的摆钟进一步提高了准确性，促成了标准化时间系统的建立。随着技术的发展，20世纪石英钟的引入彻底改变了chronometric的准确性。这些时钟利用石英晶体的振动来维持精确的时间，使其比机械前身更加可靠。如今，原子钟代表了chronometric技术的巅峰，能够测量到十亿分之一秒的时间精度。这种精度不仅仅是学术性的，它在全球定位系统（GPS）、电信，甚至金融交易的同步中都有实际应用。总之，术语chronometric涵盖了一个广泛的研究领域，这对于我们理解时间及其测量至关重要。随着我们继续创新和改善时间测量技术，chronometric准确性的影响将只会在重要性上不断增长。无论是在我们的个人生活中，还是在更广泛的科学研究中，精确测量时间的能力仍然是进步的基石。我们必须珍视chronometric进步在塑造我们的世界和促进我们日常活动中的作用。