collimation line

简明释义

视准线

英英释义

例句

1.Before taking measurements, ensure that the collimation line is visible and straight.

在进行测量之前，确保调准线可见且直。

2.When setting up the laser, it's crucial to check the collimation line for accuracy.

在设置激光器时，检查调准线的准确性至关重要。

3.The technician adjusted the telescope to ensure the collimation line is perfectly aligned.

技术员调整望远镜，以确保调准线完美对齐。

4.The collimation line helps in aligning the optical components of the microscope.

在显微镜中，调准线有助于对齐光学组件。

5.The engineer marked the collimation line on the blueprint for precise construction.

工程师在蓝图上标记了调准线以确保精确施工。

作文

In the field of optics and surveying, the term collimation line refers to an imaginary line that indicates the direction in which a telescope or other optical instrument is aligned. This concept is crucial for ensuring accuracy in measurements and observations. When using instruments like theodolites or total stations, the collimation line serves as a reference point that helps surveyors and engineers maintain precision during their work. The collimation line is established when the optical axis of the instrument is perfectly aligned with the target being observed. This alignment is vital because any deviation from this line can result in errors in measurement, affecting the overall quality of the data collected. For instance, if a surveyor is measuring the distance between two points, any misalignment of the collimation line could lead to incorrect calculations, which may have significant implications in construction projects or land development. To achieve a proper collimation line, surveyors often perform a series of adjustments and calibrations on their instruments before taking measurements. This process involves leveling the instrument, adjusting the focus, and ensuring that the crosshairs are aligned with the target. Once these adjustments are made, the surveyor can confidently proceed with their measurements, knowing that the collimation line is accurate. Understanding the importance of the collimation line extends beyond just the mechanics of using surveying equipment. It also highlights the significance of precision in scientific research and data collection. In fields such as astronomy, the collimation line is equally important. Astronomers must align their telescopes accurately to observe celestial bodies without distortion. Any misalignment can lead to blurry images or incorrect readings, which can affect the conclusions drawn from astronomical studies. Moreover, the concept of the collimation line is not limited to traditional surveying and astronomy. Modern technologies, such as laser scanning and photogrammetry, also rely on precise alignment to produce accurate three-dimensional models of objects and landscapes. In these applications, the collimation line ensures that the data captured is representative of the actual environment, allowing for effective analysis and decision-making. In conclusion, the collimation line is a fundamental aspect of various fields, including surveying, astronomy, and modern technology. Its role in ensuring accuracy and precision cannot be overstated. As professionals in these areas continue to advance their techniques and tools, understanding and maintaining the collimation line will remain essential for achieving reliable results. By emphasizing the importance of this concept, we can appreciate the intricate relationship between technology and precision in our quest for knowledge and understanding of the world around us.

在光学和测量领域，术语collimation line指的是一条虚拟线，表示望远镜或其他光学仪器对准的方向。这个概念对于确保测量和观察的准确性至关重要。当使用经纬仪或全站仪等仪器时，collimation line作为一个参考点，帮助测量师和工程师在工作中保持精确。collimation line是在仪器的光轴与被观察目标完美对齐时建立的。这种对齐至关重要，因为任何偏离这条线的情况都可能导致测量错误，从而影响所收集数据的整体质量。例如，如果测量师正在测量两点之间的距离，collimation line的任何不对齐都可能导致不正确的计算，这在建筑项目或土地开发中可能会产生重大影响。为了实现正确的collimation line，测量师通常在进行测量之前对他们的仪器进行一系列调整和校准。这个过程包括将仪器水平、调整焦距，并确保十字丝与目标对齐。一旦这些调整完成，测量师可以自信地进行测量，知道collimation line是准确的。理解collimation line的重要性不仅限于使用测量设备的机械原理。它还突显了科学研究和数据收集中的精确性的重要性。在天文学等领域，collimation line同样重要。天文学家必须准确对齐他们的望远镜，以观察天体而不失真。任何不对齐都可能导致模糊的图像或不正确的读数，这可能影响从天文研究中得出的结论。此外，collimation line的概念并不限于传统的测量和天文学。现代技术，如激光扫描和摄影测量，也依赖于精确的对齐来生成物体和景观的准确三维模型。在这些应用中，collimation line确保所捕获的数据代表实际环境，从而允许有效的分析和决策。总之，collimation line是多个领域的基本方面，包括测量、天文学和现代技术。它在确保准确性和精确性方面的作用不可低估。随着这些领域的专业人员不断推进他们的技术和工具，理解和维护collimation line仍将是实现可靠结果的关键。通过强调这一概念的重要性，我们可以欣赏到技术与我们对周围世界知识和理解追求中的精确性之间的微妙关系。