time base unit

简明释义

时基装置

英英释义

例句

1.The software allows users to adjust the time base unit 时间基准单位 according to their needs.

该软件允许用户根据需要调整时间基准单位 时间基准单位。

2.Understanding the time base unit 时间基准单位 is crucial for synchronizing multiple audio tracks.

理解时间基准单位 时间基准单位对于同步多个音轨至关重要。

3.For video processing, a time base unit 时间基准单位 of 30 frames per second is commonly used.

对于视频处理，通常使用每秒30帧的时间基准单位 时间基准单位。

4.In our experiment, we set the time base unit 时间基准单位 to milliseconds for more precise measurements.

在我们的实验中，我们将时间基准单位 时间基准单位设置为毫秒，以获得更精确的测量。

5.The digital clock uses a time base unit 时间基准单位 of one second to keep accurate time.

数字时钟使用一秒的时间基准单位 时间基准单位来保持准确的时间。

作文

In the realm of science and technology, precise measurements are crucial for understanding and analyzing various phenomena. One fundamental aspect of measurement is the concept of a time base unit, which serves as a standard reference for measuring time intervals. A time base unit is defined as a specific duration that is used as a basis for quantifying time in various applications, ranging from simple clocks to complex scientific experiments. Understanding this concept is essential for anyone involved in fields such as physics, engineering, or even daily life activities that require accurate timing.The most common time base unit in everyday use is the second, which is widely recognized and utilized across the globe. The International System of Units (SI) defines the second based on the vibrations of cesium atoms, making it a highly precise measure of time. This definition allows scientists and engineers to synchronize their work and ensures that measurements are consistent and reliable.In addition to the second, there are other time base units that are important in specific contexts. For example, in the field of astronomy, the minute and hour are often used to measure time intervals between celestial events. On the other hand, in high-frequency trading, milliseconds and microseconds can be critical for executing trades at optimal times. Thus, the choice of time base unit can vary significantly depending on the application and the level of precision required.Furthermore, the importance of a time base unit extends beyond just measurement; it also plays a vital role in synchronization. In modern technology, systems such as GPS and telecommunications rely on precise timing to function correctly. These systems must coordinate their operations to ensure that data is transmitted accurately and efficiently. Without a well-defined time base unit, these technologies would not be able to achieve the level of precision necessary for their operation.Moreover, the concept of a time base unit is not limited to physical sciences; it also finds applications in social sciences and economics. For instance, measuring time intervals in economic data can help analysts understand trends and make predictions about future market behavior. By using a consistent time base unit, economists can compare data over different periods, leading to more informed decisions and policies.In conclusion, the time base unit is a fundamental concept that underlies many aspects of our lives. It provides a standardized way to measure time, ensuring consistency and accuracy across various fields. Whether in scientific research, technological applications, or economic analysis, the significance of a time base unit cannot be overstated. As we continue to advance in technology and science, the need for precise and reliable measurements will only grow, making the understanding of time base units increasingly important for future generations.

在科学和技术的领域中，精确的测量对于理解和分析各种现象至关重要。测量的一个基本方面是“时间基准单位”的概念，它作为测量时间间隔的标准参考。“时间基准单位”被定义为用于量化时间的特定持续时间，应用范围从简单的时钟到复杂的科学实验。理解这一概念对于任何涉及物理、工程或甚至需要准确计时的日常生活活动的人都是必不可少的。在日常使用中，最常见的“时间基准单位”是秒，这一单位在全球广泛认可和使用。国际单位制（SI）将秒的定义基于铯原子的振动，使其成为一个高度精确的时间测量标准。这个定义使得科学家和工程师能够同步他们的工作，并确保测量的一致性和可靠性。除了秒之外，在特定背景下还有其他重要的“时间基准单位”。例如，在天文学领域，分钟和小时通常用于测量天体事件之间的时间间隔。另一方面，在高频交易中，毫秒和微秒对于在最佳时机执行交易可能至关重要。因此，“时间基准单位”的选择可以根据应用和所需的精度水平而显著变化。此外，“时间基准单位”的重要性不仅限于测量；它在同步方面也发挥着至关重要的作用。在现代技术中，GPS和电信等系统依赖于精确的时间来正确运作。这些系统必须协调其操作，以确保数据准确高效地传输。如果没有明确的“时间基准单位”，这些技术将无法达到其运作所需的精确水平。此外，“时间基准单位”的概念不仅限于自然科学；它在社会科学和经济学中也有应用。例如，测量经济数据中的时间间隔可以帮助分析师理解趋势并对未来市场行为进行预测。通过使用一致的“时间基准单位”，经济学家可以比较不同时间段的数据，从而做出更明智的决策和政策。总之，“时间基准单位”是一个基本概念，支撑着我们生活的许多方面。它提供了一种标准化的方式来测量时间，确保在各个领域的一致性和准确性。无论是在科学研究、技术应用还是经济分析中，“时间基准单位”的重要性都不容小觑。随着我们在技术和科学方面的不断进步，对精确和可靠测量的需求只会增加，使得对“时间基准单位”的理解对未来几代人来说愈发重要。