absorption colour

简明释义

吸收色;

英英释义

例句

1.The absorption colour 吸收颜色 of the glass can change depending on the type of minerals used in its production.

玻璃的absorption colour 吸收颜色 会因生产中使用的矿物类型而变化。

2.The scientist noted that the absorption colour 吸收颜色 of the solution indicated the presence of certain chemicals.

科学家注意到，溶液的absorption colour 吸收颜色 表明存在某些化学物质。

3.In art, understanding the absorption colour 吸收颜色 of pigments can enhance the quality of the final piece.

在艺术中，理解颜料的absorption colour 吸收颜色 可以提升最终作品的质量。

4.The absorption colour 吸收颜色 of a material can affect its thermal properties significantly.

材料的absorption colour 吸收颜色 会显著影响其热性能。

5.During the experiment, the researchers measured the absorption colour 吸收颜色 to determine the concentration of the dye.

在实验过程中，研究人员测量了absorption colour 吸收颜色 以确定染料的浓度。

作文

In the study of physics and chemistry, the concept of absorption colour plays a crucial role in understanding how substances interact with light. When light passes through or reflects off an object, certain wavelengths are absorbed while others are reflected. The light that is reflected determines the color that we perceive. For instance, when a leaf appears green, it is because the leaf absorbs most wavelengths of light except for green, which is reflected back to our eyes. This phenomenon is essential not only in biology but also in various applications such as art, design, and photography.The absorption colour of an object can be influenced by its chemical composition, structure, and even its temperature. Different materials have unique absorption spectra, which means they absorb different wavelengths of light. For example, pigments used in paints and dyes are designed to absorb specific colors to produce a desired hue. Artists often rely on their understanding of absorption colour to mix paints effectively, creating a wide range of colors through the selective absorption of light.Moreover, the concept of absorption colour is not limited to visible light. It extends to other parts of the electromagnetic spectrum, including ultraviolet and infrared light. Scientists utilize this principle in various fields, such as spectroscopy, where they analyze the light absorbed by substances to determine their composition and concentration. By studying the absorption colour, researchers can identify the presence of specific elements or compounds, which is invaluable in fields like environmental science, medicine, and materials science.Understanding absorption colour also has practical implications in everyday life. For instance, the color of clothing can affect how much heat is absorbed from sunlight. Dark colors tend to absorb more light and heat, making them warmer to wear on sunny days, while lighter colors reflect more light and remain cooler. This principle is often considered in fashion and textile design, where the choice of colors can impact comfort and functionality.Additionally, the study of absorption colour has led to advancements in technology. In the field of optics, engineers design filters and lenses based on the absorption properties of materials. These innovations are applied in various devices, from cameras to optical sensors, improving their performance and efficiency. The understanding of how different materials absorb and transmit light is fundamental to the development of new technologies that enhance our interaction with the visual world.In conclusion, the concept of absorption colour is a fascinating intersection of science and art. It helps us understand the behavior of light and color in nature and has significant implications across various disciplines. From enhancing artistic expression to advancing scientific research and technology, the study of absorption colour enriches our comprehension of the world around us. As we continue to explore this concept, we uncover deeper insights into the relationship between light, color, and matter, showcasing the beauty and complexity of our universe.

在物理和化学的研究中，吸收颜色的概念在理解物质如何与光相互作用方面发挥着至关重要的作用。当光线穿过或反射在一个物体上时，某些波长会被吸收，而其他波长则会被反射。反射的光线决定了我们所感知的颜色。例如，当一片叶子看起来是绿色的，那是因为叶子吸收了大多数波长的光，除了绿色，这种光被反射回我们的眼睛。这种现象不仅在生物学中至关重要，而且在艺术、设计和摄影等各个应用中也是如此。物体的吸收颜色可以受到其化学成分、结构甚至温度的影响。不同的材料具有独特的吸收光谱，这意味着它们吸收不同波长的光。例如，涂料和染料中使用的颜料旨在吸收特定的颜色，以产生所需的色调。艺术家们常常依靠对吸收颜色的理解来有效地混合颜料，通过选择性地吸收光线来创建广泛的颜色。此外，吸收颜色的概念并不仅限于可见光。它还扩展到电磁波谱的其他部分，包括紫外线和红外线。科学家们利用这一原理在各种领域中进行研究，例如光谱学，他们分析物质吸收的光线以确定其成分和浓度。通过研究吸收颜色，研究人员可以识别特定元素或化合物的存在，这在环境科学、医学和材料科学等领域是非常宝贵的。理解吸收颜色在日常生活中也具有实际意义。例如，衣物的颜色会影响其从阳光中吸收的热量。深色往往吸收更多的光和热，使其在阳光明媚的日子里穿着更暖和，而浅色则反射更多的光，保持较凉爽。这一原理通常在时尚和纺织设计中被考虑，其中颜色的选择可以影响舒适性和功能性。此外，吸收颜色的研究促进了技术进步。在光学领域，工程师根据材料的吸收特性设计滤光器和镜头。这些创新应用于各种设备，从相机到光学传感器，提高其性能和效率。理解不同材料如何吸收和传播光是新技术发展的基础，这些技术增强了我们与视觉世界的互动。总之，吸收颜色的概念是科学与艺术交汇的迷人领域。它帮助我们理解自然界中光和颜色的行为，并对各个学科产生重大影响。从增强艺术表现力到推动科学研究和技术的发展，吸收颜色的研究丰富了我们对周围世界的理解。随着我们继续探索这一概念，我们揭示了光、颜色和物质之间关系的更深刻洞察，展示了我们宇宙的美丽与复杂性。