zero adjustment

简明释义

零位蝶

英英释义

例句

1.The software update included a feature for zero adjustment of the user settings.

软件更新包括用户设置的零调整功能。

2.To maintain accuracy, the technician performed a zero adjustment on the scale before weighing the samples.

为了保持准确性，技术人员在称量样本之前对秤进行了零调整。

3.The accountant mentioned that the quarterly report required a zero adjustment to accurately reflect the expenses.

会计提到季度报告需要进行零调整以准确反映支出。

4.The survey results showed no significant changes, so the analyst decided on a zero adjustment for the final report.

调查结果显示没有显著变化，因此分析师决定对最终报告进行零调整。

5.In the calibration process, we need to ensure that the instrument is set to zero adjustment before taking measurements.

在校准过程中，我们需要确保仪器在测量之前设置为零调整。

作文

In the world of technology and engineering, precision is paramount. Whether it’s in manufacturing, software development, or scientific research, achieving the highest level of accuracy is often the goal. One concept that plays a crucial role in this pursuit of precision is zero adjustment. This term refers to the process of calibrating a measuring instrument so that it reads zero when the measured quantity is actually zero. Understanding zero adjustment is essential for anyone involved in fields where measurement accuracy is critical.To illustrate the importance of zero adjustment, let’s consider the example of a digital scale. When you step on a scale, you expect it to show your weight accurately. However, if the scale is not properly calibrated, it might display a weight even when there is nothing on it. This discrepancy can lead to incorrect readings and ultimately affect decisions based on those measurements. By performing a zero adjustment, the scale can be set to read zero without any weight applied, ensuring that all subsequent readings are accurate.The significance of zero adjustment extends beyond just scales. In scientific research, for instance, researchers rely on precise measurements to draw conclusions and make discoveries. If an instrument used in an experiment is not correctly adjusted to zero, it could lead to faulty data and erroneous interpretations. This is why many laboratories have strict protocols in place for regular zero adjustment of their equipment. It ensures that the integrity of the research is maintained and that results are trustworthy.Moreover, zero adjustment is not limited to physical instruments. In software development, particularly in fields like data analysis and machine learning, algorithms often require calibration. For example, if a model is trained on data that contains biases or errors, it may produce skewed results. By implementing a form of zero adjustment, developers can recalibrate their models to account for these discrepancies, leading to more accurate predictions and analyses.The process of performing a zero adjustment can vary depending on the instrument or system in question. Generally, it involves resetting the device to a baseline measurement, which is typically done by following specific procedures outlined by the manufacturer. This might include using reference weights for scales, adjusting knobs on measuring devices, or even writing code to adjust parameters in software applications.In conclusion, zero adjustment is a fundamental concept that underpins accuracy and reliability in various fields. It is a simple yet powerful tool that ensures measurements reflect true values, thereby supporting better decision-making and enhancing the quality of work produced in scientific and technical domains. As we continue to advance in technology and science, the importance of understanding and implementing zero adjustment will only grow, making it a vital skill for professionals across industries. Recognizing the need for precision and regularly performing zero adjustment can lead to improved outcomes and a greater trust in the data we rely on every day.

在技术和工程的世界中，精确性至关重要。无论是在制造、软件开发还是科学研究中，追求最高水平的准确性往往是目标。一个在这一追求中起着关键作用的概念是零调整。这个术语指的是校准测量仪器的过程，以便在测量的量实际上为零时，它的读数显示为零。理解零调整对于任何参与需要测量准确性的领域的人来说都是必不可少的。为了说明零调整的重要性，让我们考虑数字秤的例子。当你站在秤上时，你希望它准确地显示你的体重。然而，如果秤没有正确校准，它可能会在没有任何重量时仍然显示一个体重。这种差异可能导致错误的读数，最终影响基于这些测量做出的决策。通过进行零调整，秤可以被设置为在没有施加任何重量的情况下读取零，从而确保所有后续读数都是准确的。零调整的重要性不仅限于秤。在科学研究中，例如，研究人员依赖精确的测量来得出结论并进行发现。如果实验中使用的仪器未正确调整为零，可能会导致错误的数据和错误的解释。这就是为什么许多实验室对其设备的定期零调整有严格的协议。这确保了研究的完整性，并使结果值得信赖。此外，零调整不仅限于物理仪器。在软件开发中，尤其是在数据分析和机器学习等领域，算法通常需要校准。例如，如果模型是在包含偏见或错误的数据上训练的，它可能会产生失真的结果。通过实施某种形式的零调整，开发人员可以重新校准他们的模型，以考虑这些差异，从而导致更准确的预测和分析。执行零调整的过程可能因所涉及的仪器或系统而异。通常，这涉及将设备重置为基线测量，这通常是通过遵循制造商提供的特定程序来完成的。这可能包括使用秤的参考重量、调整测量设备上的旋钮，甚至编写代码以调整软件应用中的参数。总之，零调整是一个基础概念，支撑着各个领域的准确性和可靠性。这是确保测量反映真实值的简单而强大的工具，从而支持更好的决策，并提高科学和技术领域工作质量。随着我们在技术和科学方面的不断进步，理解和实施零调整的重要性只会增加，使其成为各行业专业人士的一项重要技能。认识到对精度的需求并定期进行零调整可以带来更好的结果，并增强我们每天依赖的数据的可信度。