vernier = sliding limb

简明释义

游标尺

英英释义

例句

1.To read the measurement accurately, align the main scale with the vernier = sliding limb.

要准确读取测量值，请将主刻度与游标 = 滑动肢体对齐。

2.When taking measurements, ensure the vernier = sliding limb is securely locked.

在进行测量时，确保游标 = 滑动肢体牢固锁定。

3.The engineer adjusted the measurement using the vernier = sliding limb for precision.

工程师使用游标 = 滑动肢体调整测量以确保精确。

4.The vernier = sliding limb allows for finer adjustments in the caliper.

该游标 = 滑动肢体允许在卡尺中进行更精细的调整。

5.The design of the vernier = sliding limb enhances the accuracy of the tool.

该游标 = 滑动肢体的设计提高了工具的准确性。

作文

In the world of precision measurement, the term vernier = sliding limb holds significant importance. A vernier scale is a tool that allows for precise readings of measurements, particularly in scientific and engineering contexts. This device consists of a main scale and a sliding scale, known as the vernier = sliding limb, which provides additional accuracy beyond what is possible with the main scale alone. The concept of the vernier scale was introduced by Pierre Vernier in the 17th century, and it has since become an essential instrument in fields such as mechanics, carpentry, and even medicine.The function of the vernier = sliding limb is to enhance the resolution of measurements. For instance, when measuring an object, the main scale may indicate a value of 10 millimeters, but the vernier = sliding limb can help determine whether the actual measurement is closer to 10.1 millimeters or 10.2 millimeters. By aligning the markings on the sliding limb with those on the main scale, users can achieve a more precise reading, often to within one-tenth of a millimeter.This precision is crucial in many applications. In mechanical engineering, for example, components must fit together perfectly to ensure the functionality of machines. A slight deviation in measurement can lead to malfunction or failure of equipment. Similarly, in carpentry, precise measurements are vital for creating structures that are safe and durable. The vernier = sliding limb allows craftsmen to achieve the level of accuracy required for high-quality work.Moreover, the use of the vernier scale is not limited to physical measurements. It also finds application in digital devices where precision is paramount. Digital calipers, for instance, utilize the principle of the vernier = sliding limb to provide electronic readings that further enhance measurement accuracy. These advancements in technology have made it easier for professionals to rely on precise measurements in their work.Understanding how to read a vernier scale is an essential skill for many trades. To properly utilize the vernier = sliding limb, one must first learn to align the zero mark of the sliding scale with the main scale. Then, by examining which line on the sliding limb coincides with a line on the main scale, users can determine the exact measurement. This process requires careful attention to detail and practice, but once mastered, it becomes an invaluable tool in any precision work.In conclusion, the term vernier = sliding limb is more than just a phrase; it encapsulates the essence of precision measurement. The ability to obtain accurate readings is critical across various fields, and the vernier scale serves as a bridge to achieving this goal. Whether in engineering, carpentry, or digital applications, understanding and utilizing the vernier = sliding limb can significantly impact the quality and reliability of work. As technology continues to evolve, the principles behind the vernier scale remain relevant, reminding us of the importance of precision in our increasingly complex world.

在精密测量的世界中，术语vernier = sliding limb具有重要意义。游标刻度是一种工具，允许在科学和工程领域内进行精确的测量读取。该设备由主刻度和一个滑动刻度组成，即vernier = sliding limb，它提供了超出主刻度所能实现的额外准确性。游标刻度的概念是由皮埃尔·游标在17世纪引入的，至今已成为机械、木工甚至医学等领域中不可或缺的工具。vernier = sliding limb的功能是增强测量的分辨率。例如，在测量一个物体时，主刻度可能显示为10毫米，但vernier = sliding limb可以帮助确定实际测量值更接近于10.1毫米还是10.2毫米。通过对齐滑动刻度上的标记与主刻度上的标记，用户可以获得更精确的读数，通常可达到十分之一毫米的精度。这种精确性在许多应用中至关重要。例如，在机械工程中，组件必须完美契合，以确保机器的功能。测量中的微小偏差可能导致设备的故障或失效。同样，在木工中，精确的测量对于创建安全耐用的结构至关重要。vernier = sliding limb使工匠能够实现高质量工作的所需精度。此外，游标刻度的使用不仅限于物理测量。它还应用于数字设备，其中精度至关重要。例如，数字卡尺利用vernier = sliding limb的原理提供电子读数，进一步增强测量的准确性。这些技术的进步使专业人员更容易在工作中依赖精确的测量。理解如何读取游标刻度是许多行业必备的技能。为了正确使用vernier = sliding limb，首先必须学习将滑动刻度的零刻度与主刻度对齐。然后，通过检查滑动刻度上哪一条线与主刻度上的线重合，用户可以确定确切的测量值。这个过程需要仔细关注细节和实践，但一旦掌握，就会成为任何精密工作中无价的工具。总之，术语vernier = sliding limb不仅仅是一个短语；它概括了精密测量的本质。获得准确读数的能力在各个领域都是至关重要的，而游标刻度则作为实现这一目标的桥梁。无论是在工程、木工还是数字应用中，理解和利用vernier = sliding limb都能显著影响工作的质量和可靠性。随着技术的不断发展，游标刻度背后的原理仍然相关，提醒我们在日益复杂的世界中精确的重要性。