absolute calibration

简明释义

绝对校准

英英释义

例句

1.The scientist conducted an experiment that required absolute calibration 绝对校准 of the measuring instruments to ensure accurate results.

科学家进行了一项实验，需要对测量仪器进行绝对校准 absolute calibration以确保结果的准确性。

2.The laboratory's absolute calibration 绝对校准 standards are recognized internationally, ensuring consistency in research.

该实验室的绝对校准 absolute calibration标准在国际上得到认可，确保研究的一致性。

3.In order to maintain quality control, the factory implemented absolute calibration 绝对校准 procedures for all their machinery.

为了保持质量控制，工厂为所有机器实施了绝对校准 absolute calibration程序。

4.Astronomers rely on absolute calibration 绝对校准 of their telescopes to measure the brightness of distant stars accurately.

天文学家依赖于望远镜的绝对校准 absolute calibration来准确测量遥远星星的亮度。

5.For the new sensor technology, engineers developed a method for absolute calibration 绝对校准 to enhance its accuracy.

对于新传感器技术，工程师们开发了一种方法进行绝对校准 absolute calibration以提高其准确性。

作文

In the realm of scientific measurement and instrumentation, the concept of absolute calibration plays a crucial role in ensuring accuracy and reliability. 绝对校准 refers to the process of calibrating an instrument against a standard that is universally recognized and accepted, often based on physical constants or fundamental properties. This method is essential for various fields, including physics, chemistry, and engineering, where precise measurements are paramount. One of the primary advantages of absolute calibration is that it provides a reference point that is independent of any specific measurement system. For instance, when measuring temperature, an instrument can be calibrated against the freezing and boiling points of water, which are universally acknowledged standards. This ensures that the readings obtained from the instrument are consistent and can be compared across different settings and applications.Moreover, absolute calibration is vital in research and development environments where new technologies and methods are being tested. In such cases, having a reliable baseline allows scientists and engineers to assess the performance of their instruments accurately. It also facilitates the replication of experiments, as other researchers can use the same calibrated instruments to obtain similar results, thereby validating findings and contributing to the body of knowledge in their respective fields.However, achieving absolute calibration can be a complex and resource-intensive process. It often requires specialized equipment and expertise, as well as adherence to strict protocols to ensure that the calibration is performed correctly. This can pose challenges, especially in laboratories with limited resources or in developing regions where access to advanced technology may be restricted.Despite these challenges, the importance of absolute calibration cannot be overstated. In industries such as pharmaceuticals, where the efficacy and safety of drugs depend on accurate measurements, the consequences of inaccurate calibration can be severe. Similarly, in environmental monitoring, incorrect data can lead to misguided policies and actions that may harm public health or the ecosystem.In conclusion, absolute calibration is a fundamental aspect of scientific measurement that underpins the integrity of research and industry practices. By establishing a reliable standard for comparison, it enhances the credibility of data collected and supports the advancement of knowledge across various disciplines. As technology continues to evolve, maintaining rigorous calibration standards will be essential in ensuring that the instruments we rely on provide accurate and trustworthy measurements, ultimately benefiting society as a whole.

在科学测量和仪器领域，绝对校准的概念在确保准确性和可靠性方面发挥着至关重要的作用。绝对校准是指将仪器与一个普遍认可和接受的标准进行校准，这个标准通常基于物理常数或基本属性。这种方法对于物理、化学和工程等多个领域至关重要，因为在这些领域中，精确的测量是至关重要的。绝对校准的主要优点之一是，它提供了一个独立于任何特定测量系统的参考点。例如，在测量温度时，仪器可以根据水的冰点和沸点进行校准，这些都是普遍认可的标准。这确保了从仪器获得的读数是一致的，并且可以在不同的环境和应用中进行比较。此外，绝对校准在研究和开发环境中至关重要，在这些环境中，新技术和方法正在被测试。在这种情况下，拥有一个可靠的基线使科学家和工程师能够准确评估他们仪器的性能。它还促进了实验的复制，因为其他研究人员可以使用相同的经过校准的仪器来获得类似的结果，从而验证发现并为各自领域的知识体系做出贡献。然而，实现绝对校准可能是一个复杂且资源密集的过程。它通常需要专业设备和专业知识，以及遵循严格的协议以确保校准正确执行。这可能会带来挑战，尤其是在资源有限的实验室或在发展中国家，获取先进技术的机会可能受到限制。尽管面临这些挑战，绝对校准的重要性不容小觑。在制药等行业中，药物的有效性和安全性依赖于准确的测量，不准确的校准可能导致严重后果。同样，在环境监测中，不正确的数据可能导致误导性的政策和行动，这可能危害公众健康或生态系统。总之，绝对校准是科学测量的基本方面，它支撑着研究和工业实践的完整性。通过建立一个可靠的比较标准，它增强了所收集数据的可信度，并支持各个学科知识的进步。随着技术的不断发展，保持严格的校准标准对于确保我们依赖的仪器提供准确和可靠的测量至关重要，最终将惠及整个社会。