absolute practical system of units

简明释义

绝对实用单位制

英英释义

例句

1.The engineering team decided to adopt an absolute practical system of units for all their calculations to ensure consistency.

工程团队决定采用一个绝对实用的单位系统进行所有计算，以确保一致性。

2.For the construction project, the architect specified an absolute practical system of units to avoid any confusion among the workers.

为了建筑项目，建筑师指定了一个绝对实用的单位系统以避免工人之间的任何混淆。

3.By implementing an absolute practical system of units, the laboratory improved its measurement accuracy significantly.

通过实施一个绝对实用的单位系统，实验室显著提高了测量精度。

4.The physics curriculum was updated to include an absolute practical system of units for better understanding of concepts.

物理课程被更新为包含一个绝对实用的单位系统以更好地理解概念。

5.In scientific research, using an absolute practical system of units minimizes errors in data interpretation.

在科学研究中，使用绝对实用的单位系统可以减少数据解释中的错误。

作文

In the realm of science and engineering, the importance of a standardized measurement system cannot be overstated. One such system that stands out is the absolute practical system of units, which provides a consistent framework for measuring physical quantities. This system is essential for ensuring that measurements are accurate, reliable, and universally understood across different fields and applications.The absolute practical system of units is designed to eliminate ambiguity in measurements. Traditionally, various systems of units have been used, such as the imperial system and the metric system. However, these systems can sometimes lead to confusion due to their differing bases and conversion factors. The absolute practical system of units addresses this issue by establishing a set of base units that are defined independently of any specific physical object or phenomenon. For instance, the meter is defined based on the speed of light in a vacuum, while the kilogram is defined using fundamental constants of nature. This independence from arbitrary references allows for a more precise and stable system of measurement. In practical terms, this means that scientists and engineers can communicate their findings and collaborate more effectively, knowing that they are all working from the same baseline.Moreover, the absolute practical system of units is crucial for technological advancements. In fields such as physics, chemistry, and engineering, precise measurements are vital for experimentation and development. For example, when designing a new material or conducting a chemical reaction, having a common measurement system ensures that results can be replicated and verified by others. This replication is a cornerstone of the scientific method, allowing for progress and innovation.Additionally, the adoption of the absolute practical system of units facilitates international cooperation. As the world becomes increasingly interconnected, researchers and engineers from different countries often collaborate on projects. A unified system of measurement helps bridge the gap between diverse practices and promotes a common understanding. This is particularly important in global challenges such as climate change, where scientists from around the world must share data and findings that are easily comparable.In conclusion, the absolute practical system of units plays a pivotal role in modern science and engineering. Its establishment of clear, consistent, and universal measurement standards not only enhances communication and collaboration but also drives innovation and technological progress. As we continue to tackle complex scientific challenges, the reliance on an absolute practical system of units will undoubtedly remain a cornerstone of our efforts to understand and manipulate the natural world. The future of research and development will depend heavily on our ability to measure accurately and consistently, making this system invaluable for generations to come.

在科学和工程领域，标准化测量系统的重要性不容忽视。其中一个突出的系统是绝对实用单位制，它为测量物理量提供了一个一致的框架。该系统对于确保测量的准确性、可靠性以及在不同领域和应用中被普遍理解至关重要。绝对实用单位制旨在消除测量中的模糊性。传统上，使用了多种单位系统，如英制和公制。然而，由于这些系统的基础和换算因子不同，有时会导致混淆。绝对实用单位制通过建立一组独立于任何特定物体或现象的基本单位来解决这个问题。例如，米是基于光在真空中的速度定义的，而千克则是利用自然的基本常数进行定义的。这种独立于任意参考的特性使得测量系统更加精确和稳定。在实际操作中，这意味着科学家和工程师可以有效地沟通他们的发现，并进行合作，因为他们都在相同的基线上工作。此外，绝对实用单位制对于技术进步至关重要。在物理、化学和工程等领域，精确的测量对于实验和开发至关重要。例如，在设计新材料或进行化学反应时，拥有一个共同的测量系统确保结果可以被他人复制和验证。这种复制是科学方法的基石，促进了进步和创新。此外，采用绝对实用单位制促进了国际合作。随着世界日益互联，各国的研究人员和工程师经常在项目上进行合作。统一的测量系统有助于弥合不同实践之间的差距，促进共同理解。这在应对气候变化等全球性挑战时尤为重要，因为来自世界各地的科学家必须共享易于比较的数据和发现。总之，绝对实用单位制在现代科学和工程中发挥着关键作用。它建立了清晰、一致和普遍的测量标准，不仅增强了沟通与合作，还推动了创新和技术进步。随着我们继续应对复杂的科学挑战，依赖于绝对实用单位制无疑将继续成为我们理解和操控自然界努力的基石。未来的研究和开发将高度依赖于我们准确和一致地测量的能力，使这一系统对未来几代人来说都是无价的。