absorption color

简明释义

吸收色;

英英释义

例句

1.In photography, understanding the absorption color 吸收颜色 of filters is essential for achieving the desired effects.

在摄影中，理解滤镜的吸收颜色 absorption color对于实现所需效果至关重要。

2.The scientist measured the absorption color 吸收颜色 of the solution to determine its concentration.

科学家测量了溶液的吸收颜色 absorption color以确定其浓度。

3.When analyzing light, scientists often refer to the absorption colors 吸收颜色 of various substances.

在分析光时，科学家们常常提到各种物质的吸收颜色 absorption colors。

4.The absorption color 吸收颜色 of a material can indicate its chemical properties.

材料的吸收颜色 absorption color可以指示其化学性质。

5.Different pigments exhibit unique absorption colors 吸收颜色 that can be used in art.

不同的颜料展现出独特的吸收颜色 absorption colors，可用于艺术创作。

作文

In the world of science, particularly in the study of light and color, the concept of absorption color plays a crucial role. Absorption color refers to the specific colors that are absorbed by a material, as opposed to those that are reflected or transmitted. This phenomenon can be observed in various contexts, from art and design to biology and chemistry. Understanding absorption color is essential for various applications, including the creation of pigments, the study of plant photosynthesis, and even the development of new technologies.When we look at an object, the color we perceive is determined by the wavelengths of light that are reflected off its surface. The colors that are not reflected, but instead absorbed by the object, contribute to its absorption color. For example, a red apple appears red because it reflects red wavelengths of light while absorbing all other colors in the spectrum. This selective absorption is what gives objects their unique colors.In the field of art, artists often manipulate absorption color to create desired effects in their paintings. By mixing different pigments, they can control which wavelengths of light are absorbed and which are reflected, thus influencing the overall color of their work. For instance, combining yellow and blue pigments results in green because the yellow pigment absorbs blue light while the blue pigment absorbs yellow light. This understanding of absorption color allows artists to experiment with color mixing and achieve a wide range of hues.Moreover, absorption color is also significant in the natural world, particularly in plants. During photosynthesis, plants absorb light primarily in the blue and red wavelengths, while reflecting green light, which is why most plants appear green. The pigments responsible for this process, such as chlorophyll, are crucial for the survival of plants as they convert light energy into chemical energy. This relationship between absorption color and photosynthesis highlights the importance of color in biological systems.In addition to its applications in art and biology, absorption color has implications in technology as well. For example, solar panels utilize the principles of absorption color to convert sunlight into electricity. The materials used in solar cells are designed to absorb specific wavelengths of light effectively, maximizing energy conversion efficiency. Understanding how different materials absorb light can lead to more efficient designs and better performance in renewable energy technologies.In conclusion, the concept of absorption color is fundamental to our understanding of how color works in various fields. From the way we perceive colors in everyday life to the intricate processes of photosynthesis and technological advancements, absorption color is a key factor that influences many aspects of our world. By studying and applying the principles of absorption color, we can enhance our knowledge and creativity in science, art, and technology. This multifaceted concept not only enriches our understanding of color but also opens up new avenues for exploration and innovation.

在科学的世界中，特别是在光和颜色的研究中，吸收颜色的概念起着至关重要的作用。吸收颜色是指材料吸收的特定颜色，而不是反射或透过的颜色。这种现象可以在各种情况下观察到，从艺术和设计到生物学和化学。理解吸收颜色对多种应用至关重要，包括颜料的创造、植物光合作用的研究，甚至新技术的发展。当我们看一个物体时，我们所感知的颜色是由反射在其表面上的光波长决定的。未被反射而被物体吸收的颜色构成了它的吸收颜色。例如，一个红色的苹果看起来是红色的，因为它反射红色波长的光，同时吸收光谱中的其他所有颜色。这种选择性吸收是赋予物体独特颜色的原因。在艺术领域，艺术家们常常操控吸收颜色来在他们的画作中创造期望的效果。通过混合不同的颜料，他们可以控制哪些光波长被吸收，哪些被反射，从而影响作品的整体颜色。例如，将黄色和蓝色颜料混合会产生绿色，因为黄色颜料吸收蓝光，而蓝色颜料吸收黄光。这种对吸收颜色的理解使艺术家能够进行颜色混合实验，并获得广泛的色调。此外，吸收颜色在自然界中也具有重要意义，特别是在植物中。在光合作用过程中，植物主要吸收蓝色和红色波长的光，同时反射绿色光，这就是为什么大多数植物看起来是绿色的原因。负责这一过程的色素，例如叶绿素，对植物的生存至关重要，因为它们将光能转化为化学能。这种吸收颜色与光合作用之间的关系突显了颜色在生物系统中的重要性。除了在艺术和生物学中的应用外，吸收颜色在技术方面也有重要意义。例如，太阳能电池板利用吸收颜色的原理将阳光转化为电能。太阳能电池中使用的材料被设计为有效吸收特定波长的光，从而最大限度地提高能量转化效率。理解不同材料如何吸收光可以导致更高效的设计和更好的可再生能源技术性能。总之，吸收颜色的概念对我们理解颜色在各个领域的运作至关重要。从我们在日常生活中感知颜色的方式到光合作用的复杂过程以及技术进步，吸收颜色是影响我们世界许多方面的关键因素。通过研究和应用吸收颜色的原理，我们可以增强在科学、艺术和技术方面的知识和创造力。这个多面的概念不仅丰富了我们对颜色的理解，还为探索和创新开辟了新的途径。