refracting

简明释义

英[rɪˈfræktɪŋ]美[rɪˈfræktɪŋ]

adj. 折射，折射的

v. （使）折射（refract 的现在分词形式）

英英释义

单词用法

同义词

反义词

例句

1.The Classic series is unique for its magic of refracting light in bold half-arc.

经典系列具有可以神奇般折射光线的坚实的半弧型，非常独特。

2.The phtographer madethis image using a solar-filtered Takahashi 5-inch refracting telescopeand a Canon 5D Mark II digital camera.

照片是用佳能5DMarkII数码相机接在高桥5英寸折射望远镜后面拍的，用了太阳滤光镜。

3.The optical system of a refracting telescope is essentially the same as that of a compound microscope.

折射望远镜的光学系统与复显微镜的光学系统基本上相同。

4.The relationship between refracting Angle and incident Angle in the one-dimensional photonic crystals was studied by means of complete dispersion relation.

利用光子晶体的完全色散关系，研究了一维光子晶体中折射角与入射角之间的关系。

5.While this showed astronomers that Venus was surrounded by a thick layer of gases refracting sunlight around it, both effects made it impossible to obtain accurate timings.

尽管这向天文学家证明了金星被一层厚厚的气体所包围，这层气体使太阳光在金星周围发生折射，但这两种效应都使精确的时间控制成为不可能。

6.From above, a gray-blue nimbus flowed from the skylight, not reflecting or refracting but rather rippling and gliding, becoming part of his silken mane and sinewy limbs.

头顶上，一圈灰蓝色的光轮从天光中流泻而下，不反光不眩目，却是光影婆娑，和他的大理石浓发和强壮的四肢交相辉映。

7.With the method of equivalent optical path, the refracting power and dispersive power of the prism are derived.

用等光程方法，对棱镜折射率和色分辩本领公式两个公式给出一种新的推导方法。

8.Covering every aspects of life, such as love, destiny power, freedom, etc, Chen Kai-ge s The Promise introduces a surrealistic and non-realistic approach to refracting the reality.

陈凯歌的《无极》涵盖了爱情、命运、权力、自由等生活中的一切，它采用一种超现实和非现实的方式来折射现实。

9.The result can be used in numerical calculation and simulation of diffraction and fractional Fourier transform of input complex amplitude of misaligned single spherical refracting system.

这些结果可用于数值计算和模拟该系统失调时对输入复振幅的衍射和分数傅里叶变换。

10.The telescope uses lenses that are refracting light to focus on distant stars.

望远镜使用的透镜是通过折射光线来聚焦遥远的星星。

11.When you place a straw in a glass of water, it appears bent due to the refracting effect of the water.

当你把吸管放入一杯水中时，由于水的折射效应，它看起来是弯曲的。

12.The glass prism is refracting light into a spectrum of colors.

玻璃棱镜正在折射光线，形成一系列颜色。

13.The artist used a glass sphere for refracting sunlight to create beautiful patterns on the wall.

艺术家使用一个玻璃球来折射阳光，以在墙上创造美丽的图案。

14.In physics class, we learned how refracting changes the path of light.

在物理课上，我们学习了如何折射改变光的路径。

作文

Light is one of the most fascinating phenomena in nature. It travels in straight lines until it encounters a medium that changes its speed. This change in speed leads to a process known as refracting, which is essential for understanding how we perceive the world around us. When light passes from air into water, for example, it slows down and bends at the interface between the two mediums. This bending of light is what causes objects submerged in water to appear distorted or closer than they actually are. The science behind refracting is not only interesting but also has practical applications in our daily lives.In optics, refracting is a critical concept that helps us design lenses for glasses, cameras, and microscopes. Lenses are made of materials that have different refractive indices, which determine how much light will bend when it enters or exits the lens. For instance, a convex lens converges light rays, while a concave lens diverges them. This ability to manipulate light through refracting allows us to magnify images, correct vision, and capture photographs with clarity and detail.The phenomenon of refracting can also be observed in nature. A classic example is the rainbow, which occurs when sunlight passes through raindrops in the atmosphere. As the light enters and exits the droplet, it is refracting, separating into its constituent colors. This beautiful display reminds us of the intricate relationship between light and matter, showcasing nature's artistry.Moreover, refracting plays a significant role in astronomy. Telescopes utilize lenses and mirrors to gather and focus light from distant celestial bodies. By refracting light effectively, astronomers can study the universe's structure and composition, gaining insights into the origins of stars and galaxies.Understanding refracting also has implications in various fields, such as medicine. Endoscopes, which are used to view the inside of the human body, rely on the principles of refracting light to provide clear images of internal organs. This technology has revolutionized diagnostics and minimally invasive surgeries, improving patient outcomes.In conclusion, the concept of refracting light is fundamental to many aspects of science and daily life. From the lenses in our glasses to the stunning beauty of rainbows, refracting shapes our understanding of the world. It highlights the interplay between light and matter, demonstrating how a simple change in speed can lead to profound effects. As we continue to explore the universe and develop new technologies, the principles of refracting will undoubtedly remain at the forefront of our discoveries, illuminating the path ahead.

光是自然界中最迷人的现象之一。它沿直线传播，直到遇到改变其速度的介质。这种速度的变化导致了一个被称为折射的过程，这对于理解我们如何感知周围的世界至关重要。当光从空气进入水中时，例如，它会减速并在两种介质之间的界面处弯曲。这种光的弯曲使得浸入水中的物体看起来扭曲或比实际更近。折射背后的科学不仅有趣，还有很多实际应用于我们的日常生活。在光学中，折射是一个关键概念，帮助我们设计眼镜、相机和显微镜的镜头。镜头由具有不同折射率的材料制成，这决定了光进入或离开镜头时会弯曲多少。例如，凸透镜会聚光线，而凹透镜则会散光。这种通过折射操控光的能力使我们能够放大图像、矫正视力，并清晰细致地捕捉照片。折射现象也可以在自然中观察到。一个经典的例子是彩虹，当阳光通过大气中的雨滴时就会发生这种现象。当光进入和离开水滴时，它会折射，分离成其组成颜色。这种美丽的展示提醒我们光与物质之间复杂的关系，展示了自然的艺术性。此外，折射在天文学中也发挥着重要作用。望远镜利用镜头和镜子来收集和聚焦来自遥远天体的光。通过有效地折射光，天文学家可以研究宇宙的结构和成分，深入了解恒星和星系的起源。理解折射在医学等各个领域也有重要意义。内窥镜用于查看人体内部，依赖于折射光的原理提供内部器官的清晰图像。这项技术彻底改变了诊断和微创手术，提高了患者的治疗效果。总之，折射光的概念是科学和日常生活中许多方面的基础。从我们眼镜中的镜头到彩虹的惊人美丽，折射塑造了我们对世界的理解。它突显了光与物质之间的相互作用，展示了简单的速度变化如何导致深远的影响。随着我们继续探索宇宙并开发新技术，折射的原理无疑将继续处于我们发现的前沿，照亮前方的道路。