angle of flare

简明释义

1. 承口角; 2. 管口扩张角;

英英释义

例句

1.He struggled with the angle of flare but eventually mastered it after several attempts.

他在放坡角度上遇到了困难，但经过几次尝试后终于掌握了。

2.The pilot adjusted the angle of flare to ensure a smooth landing.

飞行员调整了放坡角度以确保平稳着陆。

3.A proper angle of flare can significantly reduce the risk of hard landings.

适当的放坡角度可以显著降低硬着陆的风险。

4.The instructor emphasized the importance of maintaining the correct angle of flare during approach.

教练强调在进场时保持正确的放坡角度的重要性。

5.During the training session, we learned how to calculate the angle of flare for various aircraft.

在培训课程中，我们学习了如何计算各种飞机的放坡角度。

作文

In the study of optics and physics, the term angle of flare is often used to describe the angular measurement at which light spreads out or diverges from a source. This concept is crucial in various fields, including photography, astronomy, and even in the design of lighting systems. Understanding the angle of flare can significantly impact the quality of images captured, the visibility of celestial bodies, and the effectiveness of artificial lighting. When a light source emits rays, these rays do not travel in perfectly straight lines but instead spread out over a certain angle. The angle of flare quantifies this spreading effect. For instance, in photography, a lens may have a specific angle of flare that determines how much light is captured and how it interacts with the surrounding environment. A wider angle of flare can lead to more light entering the lens, but it may also introduce unwanted glare or reduce image contrast. Therefore, photographers must carefully consider the angle of flare when selecting their equipment and settings to achieve the desired aesthetic. In astronomy, the angle of flare plays a significant role in observing distant stars and galaxies. Telescopes are designed to minimize the effects of flare, as excessive light dispersion can obscure faint objects in the night sky. Astronomers must account for the angle of flare when calibrating their instruments to ensure accurate readings and observations. By understanding this principle, they can enhance their ability to detect and analyze celestial phenomena, contributing to our knowledge of the universe. Moreover, the angle of flare is also relevant in the field of architecture and interior design. Lighting fixtures are often designed with specific angles of flare to create particular atmospheres in spaces. For example, a narrow angle of flare may be used for focused task lighting, while a broader angle of flare can create ambient light that fills a room. Designers must consider the angle of flare when planning the layout of lighting to ensure functionality and aesthetics align with the intended purpose of the space. In conclusion, the angle of flare is a fundamental concept that finds applications across various disciplines. Whether in photography, astronomy, or design, understanding the implications of the angle of flare can lead to improved outcomes and enhanced experiences. As technology continues to advance, the significance of mastering such concepts will only grow, allowing for greater innovation and creativity in how we capture light and shape our environments. The angle of flare (光晕角) is not just a technical specification; it is an essential aspect of how we perceive and interact with light. By grasping this concept, individuals can make informed decisions that elevate their work, whether it be through capturing stunning photographs, exploring the cosmos, or designing inviting spaces.

在光学和物理学的研究中，术语光晕角通常用于描述光从源头发散或扩散的角度测量。这个概念在摄影、天文学甚至人工照明系统的设计等多个领域至关重要。理解光晕角可以显著影响所捕获图像的质量、天体的可见性以及人工照明的有效性。当光源发出光线时，这些光线并不是沿着完全直线传播，而是以一定的角度扩散。光晕角量化了这种扩散效应。例如，在摄影中，镜头可能有一个特定的光晕角，决定了捕获多少光线以及光线如何与周围环境相互作用。较宽的光晕角可能导致更多的光线进入镜头，但它也可能引入不必要的眩光或降低图像对比度。因此，摄影师必须在选择设备和设置时仔细考虑光晕角，以达到所需的美学效果。在天文学中，光晕角在观察遥远的星星和星系时起着重要作用。望远镜的设计旨在最小化光晕的影响，因为过多的光线分散可能会遮蔽夜空中微弱的物体。天文学家在校准仪器时必须考虑光晕角，以确保准确的读数和观察。通过理解这一原理，他们能够增强检测和分析天体现象的能力，促进我们对宇宙的认识。此外，光晕角在建筑和室内设计领域也相关。照明设备通常设计有特定的光晕角，以在空间中创造特定的氛围。例如，狭窄的光晕角可用于聚焦任务照明，而较宽的光晕角可以创造填充房间的环境光。设计师在规划照明布局时必须考虑光晕角，以确保功能性和美观性与空间的预期用途一致。总之，光晕角是一个基本概念，在各个学科中都有应用。无论是在摄影、天文学还是设计中，理解光晕角的影响都可以带来更好的结果和增强的体验。随着技术的不断进步，掌握这些概念的重要性只会增加，使我们能够在捕捉光线和塑造环境方面实现更大的创新和创造力。光晕角不仅仅是一个技术规格；它是我们感知和与光互动的一个重要方面。通过掌握这一概念，个人可以做出明智的决定，提高他们的工作，无论是拍摄惊艳的照片，探索宇宙，还是设计宜人的空间。