collimating line
简明释义
视准线
英英释义
A collimating line is a reference line used in optical systems to ensure that light rays are parallel and aligned, allowing for accurate measurement or imaging. | 准直线是在光学系统中用于确保光线平行和对齐的参考线,从而实现精确的测量或成像。 |
例句
1.The optical engineer explained how the collimating line 准直线 affects image quality in telescopes.
光学工程师解释了collimating line 准直线 如何影响望远镜中的图像质量。
2.The surveyor used a laser to establish a collimating line 准直线 across the construction site.
测量员使用激光在施工现场建立了一条collimating line 准直线。
3.Adjusting the camera lens requires careful alignment with the collimating line 准直线 to achieve sharp focus.
调整相机镜头需要小心地与collimating line 准直线 对齐,以实现清晰的焦点。
4.In laser alignment, it's crucial to maintain the collimating line 准直线 to prevent beam divergence.
在激光对齐中,保持collimating line 准直线 是至关重要的,以防止光束发散。
5.The telescope was adjusted to ensure the light passed along the collimating line 准直线 for accurate observations.
望远镜经过调整,以确保光线沿着collimating line 准直线 通过,以便进行准确的观察。
作文
In the field of optics and engineering, precision is paramount. One of the critical concepts that professionals in these areas must understand is the idea of a collimating line. A collimating line refers to an imaginary line that represents the direction of a beam of light or other forms of energy when they are parallel to each other. This concept is essential for ensuring that optical instruments, such as telescopes and lasers, function correctly. When light rays are collimated, they travel in parallel lines, which allows for better focus and clarity in imaging systems.To illustrate the importance of a collimating line, consider the example of a telescope. When astronomers observe distant celestial objects, they rely on their telescopes to gather light from these objects and bring it into focus. If the light rays entering the telescope are not parallel, the resulting image will be blurry and indistinct. By using a collimating line, astronomers can ensure that the light entering the telescope is properly aligned, allowing for sharper images of stars and planets.In addition to telescopes, lasers also depend on the concept of a collimating line. Lasers emit light in a highly collimated beam, meaning that the light waves travel in parallel lines over long distances. This property makes lasers incredibly useful in various applications, from cutting materials to performing delicate surgical procedures. The precision offered by a collimating line in laser technology is what sets it apart from other light sources.Moreover, the significance of a collimating line extends beyond just optical devices. In surveying and construction, for instance, professionals use instruments like theodolites that rely on the concept of collimation to measure angles accurately. A collimating line helps ensure that the measurements taken are precise, which is crucial for building structures that are safe and stable.Understanding the collimating line becomes even more critical when considering the advancements in technology. With the rise of augmented reality (AR) and virtual reality (VR), the need for precise alignment of visual elements has never been greater. In AR and VR environments, the collimating line plays a vital role in ensuring that digital images align perfectly with the real world, creating seamless and immersive experiences for users.In conclusion, the concept of a collimating line is fundamental in various fields, including optics, engineering, and construction. Its role in ensuring that light and energy travel in parallel lines is crucial for the functionality and accuracy of numerous instruments and technologies. As we continue to innovate and develop new technologies, the understanding and application of the collimating line will remain essential for achieving precision and clarity in our work. Therefore, mastering this concept is not only beneficial but necessary for anyone involved in related disciplines.
在光学和工程领域,精确性至关重要。专业人士必须理解的一个关键概念是准直线的概念。准直线指的是一个想象中的线,表示一束光或其他形式的能量在彼此平行时的方向。这个概念对于确保光学仪器(如望远镜和激光器)正常工作至关重要。当光线被准直时,它们以平行线的方式传播,这使得成像系统的聚焦和清晰度更好。为了说明准直线的重要性,可以考虑望远镜的例子。当天文学家观察遥远的天体时,他们依靠望远镜收集来自这些天体的光并将其聚焦。如果进入望远镜的光线不是平行的,最终的图像将模糊不清。通过使用准直线,天文学家可以确保进入望远镜的光线正确对齐,从而获得更清晰的星星和行星图像。除了望远镜,激光也依赖于准直线的概念。激光发出高度准直的光束,这意味着光波在长距离上平行传播。这一特性使得激光在各种应用中非常有用,从切割材料到进行微妙的外科手术。激光技术中准直线所提供的精确性使其与其他光源区别开来。此外,准直线的重要性不仅限于光学设备。在测量和建筑行业中,专业人士使用如经纬仪等仪器,这些仪器依赖于准直的概念来准确测量角度。准直线有助于确保所测量的结果是精确的,这对于建造安全和稳定的结构至关重要。当考虑到技术进步时,理解准直线变得更加重要。随着增强现实(AR)和虚拟现实(VR)的兴起,对视觉元素精确对齐的需求从未如此之高。在AR和VR环境中,准直线在确保数字图像与现实世界完美对齐方面发挥着重要作用,为用户创造无缝且沉浸的体验。总之,准直线的概念在光学、工程和建筑等多个领域中是基础性的。它在确保光和能量以平行线传播方面的作用对于众多仪器和技术的功能性和准确性至关重要。随着我们继续创新和开发新技术,理解和应用准直线将仍然是实现我们工作的精确性和清晰性的必要条件。因此,对于任何参与相关学科的人来说,掌握这一概念不仅是有益的,而且是必要的。
相关单词
