prisms
简明释义
n. [光]棱镜(prism 的复数)
英英释义
单词用法
三角柱 | |
[物]五角棱镜;[数]五棱柱 |
同义词
| 透镜 | 相机中的透镜有助于聚焦图像。 | ||
| 玻璃形状 | 玻璃形状可以创造出美丽的光影图案。 | ||
| 光学元件 | Optical elements are crucial for improving the quality of images. | 光学元件对提高图像质量至关重要。 |
反义词
| 阴影 | 光线在墙上投射出跳动的阴影。 | ||
| 空无 | 艺术作品中的空无感赋予了它一种深度感。 |
例句
1.The process technology of the colour spectro prisms is described with special emphasis on cementing methods of colour spectro prism series.
本文叙述了彩色分光棱镜的加工工艺,并着重介绍了彩色分光棱镜组的胶合方法。
2.The sea was very dark and the light made prisms in the water.
海水颜色深极了,阳光在海水中幻成七色彩虹。
3.Years of eating, drinking and smoking stain these cracks darker than the enamel prisms.
长年的饮食与吸烟会把这些裂缝染得比琅质棱柱的颜色还深。
4.The rod-like hydroxyapatite may arrange or grow into bundles which are similar to the human enamel prisms in both appearance and size.
棒状羟基磷灰石晶体可以排列或生长为束状,与人牙釉柱中的晶体在形态和尺寸上相似;
5.The Box Collider can be resized into different shapes of rectangular prisms.
盒碰撞器可以被调整成不同大小的长方体。
6.The curved glass lenses at each end of the telescope acted like prisms.
望远镜两端的曲面玻璃镜头起到了三棱镜的作用。
7.Prisms on the other hand never scatter light and therefore can produce excellent contrast.
棱镜结构另一方面没有光线散射,所以可以产生很好的反差。
8.During the experiment, the prisms refracted the light into a spectrum.
在实验中,棱镜将光折射成一个光谱。
9.The prisms in the telescope helped enhance the clarity of distant stars.
望远镜中的棱镜帮助增强了远处星星的清晰度。
10.We used prisms to demonstrate how light can be split into different colors.
我们使用棱镜来演示光如何被分解成不同的颜色。
11.In art class, we learned how prisms can create beautiful rainbows.
在美术课上,我们学习了如何通过棱镜创造美丽的彩虹。
12.The scientist used different types of prisms to study the behavior of light.
科学家使用不同类型的棱镜来研究光的行为。
作文
In the world of science and art, few objects are as fascinating as prisms. These geometrical shapes, typically made of glass or crystal, have the unique ability to refract light, creating a spectrum of colors that can mesmerize anyone who observes them. The simplest form of a prism is a triangular one, which can break white light into its component colors—red, orange, yellow, green, blue, indigo, and violet—collectively known as the rainbow. This phenomenon occurs because different wavelengths of light bend at different angles when they pass through the prism, leading to the beautiful display of colors.The study of prisms goes beyond mere visual appeal; it also has significant implications in various fields such as physics, optics, and even art. In physics, prisms help us understand the nature of light and its properties. Scientists use prisms to conduct experiments that reveal how light interacts with different materials. For example, by placing a prism in the path of a beam of light, researchers can observe how the light changes direction and color, providing insights into the behavior of electromagnetic waves.In the realm of art, prisms inspire creativity and imagination. Artists often use the effects of light refracted through prisms to explore themes of perception and reality. The way a prism transforms ordinary light into a dazzling array of colors can serve as a metaphor for the human experience, symbolizing the idea that beauty can be found in the most mundane aspects of life. Many famous paintings incorporate the use of light and color, drawing inspiration from the optical effects created by prisms.Moreover, prisms are not limited to artistic expression; they also play a crucial role in technology. Optical devices such as cameras, microscopes, and telescopes utilize prisms to enhance image quality and clarity. In telecommunications, prisms are used in fiber optics to facilitate the transmission of data over long distances. The ability of prisms to manipulate light makes them indispensable in modern technology, allowing us to communicate and connect in ways that were unimaginable just a few decades ago.Furthermore, prisms can also be used in educational settings to teach students about the properties of light and color. Simple experiments with prisms can captivate young minds, sparking an interest in science and encouraging exploration and discovery. By observing how light behaves when it encounters a prism, students gain hands-on experience that reinforces theoretical concepts learned in the classroom.In conclusion, prisms are much more than just simple geometric shapes; they are powerful tools that bridge the gap between science, art, and technology. Their ability to refract light and create stunning visual displays captivates our imagination while also providing valuable insights into the nature of light itself. Whether in a laboratory, an art studio, or a classroom, prisms continue to inspire and educate, reminding us of the beauty and complexity of the world around us. As we explore the many facets of prisms, we uncover not only the secrets of light but also the limitless possibilities of creativity and innovation.
在科学和艺术的世界中,少有物体能像棱镜那样令人着迷。这些几何形状,通常由玻璃或水晶制成,具有折射光线的独特能力,创造出一系列色彩,能让任何观察者陶醉。棱镜的最简单形式是三角形的,它可以将白光分解为其组成颜色——红、橙、黄、绿、蓝、靛、紫——统称为彩虹。这种现象发生是因为不同波长的光在通过棱镜时以不同的角度弯曲,从而导致美丽的色彩展示。对棱镜的研究不仅仅限于视觉吸引力;它在物理学、光学乃至艺术等多个领域都有重要意义。在物理学中,棱镜帮助我们理解光的性质及其特性。科学家利用棱镜进行实验,揭示光与不同材料的相互作用。例如,通过将棱镜放置在光束的路径中,研究人员可以观察到光的方向和颜色如何变化,从而提供有关电磁波行为的见解。在艺术领域,棱镜激发了创造力和想象力。艺术家们常常利用光通过棱镜折射的效果来探索感知和现实的主题。棱镜将普通光线转变为耀眼的色彩阵列的方式,可以作为人类经验的隐喻,象征着美可以在生活中最平凡的方面找到。许多著名画作都融入了光与色的运用,汲取了棱镜所创造的光学效果的灵感。此外,棱镜不仅限于艺术表现;它们在技术中也发挥着关键作用。光学设备如相机、显微镜和望远镜利用棱镜来增强图像质量和清晰度。在电信领域,棱镜用于光纤通信,以促进数据的远距离传输。棱镜操控光线的能力使它们在现代技术中不可或缺,使我们能够以几十年前无法想象的方式进行交流和连接。此外,棱镜还可以用于教育环境,以教导学生有关光和颜色的性质。与棱镜进行简单实验可以吸引年轻人的注意,激发他们对科学的兴趣,鼓励探索和发现。通过观察光在遇到棱镜时的行为,学生获得了实践经验,强化了课堂上学习的理论概念。总之,棱镜不仅仅是简单的几何形状;它们是连接科学、艺术和技术之间的强大工具。它们折射光线并创造惊人的视觉展示的能力吸引了我们的想象,同时也提供了对光的本质的宝贵见解。无论是在实验室、艺术工作室还是教室中,棱镜继续启发和教育,提醒我们周围世界的美丽和复杂性。当我们探索棱镜的许多方面时,我们不仅揭示了光的秘密,也揭示了创造力和创新的无限可能性。
