precision adjustment

简明释义

精密度调整

英英释义

例句

1.In photography, a precision adjustment of the focus can make a significant difference in image quality.

在摄影中，焦距的精确调整可以显著提高图像质量。

2.During the experiment, we needed to make a precision adjustment to the temperature controls.

在实验过程中，我们需要对温度控制进行精确调整。

3.The software allows users to perform a precision adjustment of the graphics settings.

该软件允许用户对图形设置进行精确调整。

4.The engineer performed a precision adjustment to ensure the machine operates at optimal efficiency.

工程师进行了精确调整，以确保机器在最佳效率下运行。

5.The technician recommended a precision adjustment of the calibration settings for accurate measurements.

技术员建议对校准设置进行精确调整以获得准确测量。

作文

In today's rapidly evolving technological landscape, the concept of precision adjustment has become increasingly relevant across various fields. From engineering to medicine, the ability to make fine-tuned adjustments can significantly enhance performance and outcomes. Precision adjustment refers to the meticulous process of modifying a system or component to achieve the highest level of accuracy and efficiency. This practice is not only crucial in manufacturing but also plays a vital role in scientific research and development.In manufacturing, for instance, precision adjustment is essential for ensuring that machinery operates within specified tolerances. A small error in calibration can lead to defects in products, resulting in wasted materials and increased costs. Therefore, engineers often employ precision adjustment techniques to calibrate machines, ensuring they function optimally. This attention to detail not only improves product quality but also enhances the overall productivity of the manufacturing process.Similarly, in the medical field, precision adjustment can have life-saving implications. For example, in the realm of surgery, surgeons must make precise adjustments to their instruments and techniques to ensure successful outcomes. The slightest miscalculation can result in complications, making precision adjustment a critical component of surgical procedures. Additionally, in the field of pharmaceuticals, researchers rely on precision adjustment when developing dosages for medications, as even minor deviations can affect efficacy and safety.Another area where precision adjustment is paramount is in the realm of technology and software development. Programmers and developers often need to make precise adjustments to code to ensure that applications run smoothly and efficiently. Bugs and glitches can arise from even the smallest errors in programming, which is why precision adjustment is necessary to create reliable software. By refining their code through careful adjustments, developers can enhance user experience and functionality.Moreover, precision adjustment extends beyond technical fields; it is also applicable in everyday life. For instance, athletes often engage in precision adjustment of their training regimens to optimize performance. By analyzing their physical responses and making slight modifications to their routines, they can improve their skills and achieve better results in competitions. This principle of fine-tuning applies not only to sports but also to personal goals, where individuals may adjust their strategies to achieve desired outcomes more effectively.In conclusion, the importance of precision adjustment cannot be overstated. Whether in manufacturing, medicine, technology, or daily life, the ability to make precise adjustments is crucial for achieving optimal results. As we continue to advance in various fields, the need for precision adjustment will only grow, underscoring its significance in our increasingly complex world. Embracing this concept allows us to enhance quality, efficiency, and effectiveness in everything we do, ultimately leading to better outcomes and innovations.

在当今快速发展的科技环境中，精确调整的概念在各个领域变得越来越相关。从工程到医学，进行微调的能力可以显著提高性能和结果。精确调整是指对系统或组件进行细致修改的过程，以达到最高水平的准确性和效率。这一实践不仅在制造业中至关重要，也在科学研究和开发中发挥着重要作用。例如，在制造业中，精确调整对于确保机器在规定公差内运行至关重要。校准中的小错误可能导致产品缺陷，造成材料浪费和成本增加。因此，工程师通常采用精确调整技术来校准机器，确保其最佳运行。这种对细节的关注不仅提高了产品质量，还提升了整个制造过程的生产效率。同样，在医疗领域，精确调整可能具有挽救生命的意义。例如，在手术领域，外科医生必须对他们的仪器和技术进行精确调整，以确保成功的结果。最轻微的计算错误都可能导致并发症，使得精确调整成为手术程序的关键组成部分。此外，在制药领域，研究人员在开发药物剂量时依赖于精确调整，因为即使是微小的偏差也会影响药物的有效性和安全性。另一个精确调整至关重要的领域是技术和软件开发。程序员和开发人员经常需要对代码进行精确调整，以确保应用程序平稳高效地运行。程序中即使是最小的错误也可能导致bug和故障，这就是为什么精确调整对于创建可靠的软件是必要的。通过仔细调整代码，开发人员可以增强用户体验和功能。此外，精确调整的原则不仅适用于技术领域，也适用于日常生活。例如，运动员通常会对他们的训练计划进行精确调整以优化表现。通过分析他们的身体反应并对训练进行轻微修改，他们可以提高技能，在比赛中取得更好的成绩。这种微调的原则不仅适用于体育，也适用于个人目标，个人可能会调整他们的策略，以更有效地实现预期结果。总之，精确调整的重要性不容低估。无论是在制造、医学、技术还是日常生活中，进行精确调整的能力对于实现最佳结果至关重要。随着我们在各个领域的持续进步，对精确调整的需求只会增加，突显出其在我们日益复杂的世界中的重要性。接受这一概念使我们能够在所做的一切中提高质量、效率和有效性，最终带来更好的结果和创新。