absorption caused colour

简明释义

吸收色;

英英释义

例句

1.The scientist explained how the absorption caused colour in the leaves is due to chlorophyll.

科学家解释了叶子中的吸收引起的颜色是由于叶绿素。

2.The blue hue of the ocean is a result of the absorption caused colour of water molecules.

海洋的蓝色调是水分子造成的吸收引起的颜色。

3.In art class, we learned that different pigments create absorption caused colour when mixed together.

在美术课上，我们了解到不同的颜料混合时会产生吸收引起的颜色。

4.When light hits a surface, the absorption caused colour determines what we perceive.

当光线照射到表面时，吸收引起的颜色决定了我们所感知的颜色。

5.In chemistry, we studied how absorption caused colour can indicate the presence of certain substances.

在化学课上，我们研究了如何通过吸收引起的颜色来指示某些物质的存在。

作文

Color is an essential aspect of our visual experience, influencing our emotions, perceptions, and even our decisions. One of the most intriguing phenomena related to color is the concept of absorption caused colour. This term refers to the way in which materials absorb certain wavelengths of light while reflecting others, resulting in the colors we perceive. Understanding this concept not only enhances our appreciation of art and nature but also has practical implications in various fields such as design, science, and technology.When light strikes an object, it can be absorbed, reflected, or transmitted. The specific wavelengths of light that are absorbed determine the color we see. For example, a leaf appears green because it absorbs most wavelengths except for green, which it reflects. This process is known as selective absorption, and it plays a crucial role in the natural world. Plants use this principle to harness sunlight for photosynthesis, absorbing light energy to convert carbon dioxide and water into glucose and oxygen.In the world of art, understanding absorption caused colour can help artists choose their materials wisely. For instance, artists often select pigments based on how they interact with light. Some pigments may appear vibrant under certain lighting conditions but may look dull in others due to their absorption properties. This knowledge allows artists to create works that evoke specific feelings or atmospheres, depending on the colors they use and how those colors interact with light.Moreover, the concept of absorption caused colour extends beyond art into the realm of design and technology. In architecture, the color of a building can affect its temperature regulation. Darker surfaces absorb more heat from sunlight, while lighter surfaces reflect it. Designers must consider these factors when selecting materials and colors for buildings to optimize energy efficiency and comfort.In addition, the study of absorption caused colour is crucial in scientific research. Scientists use colorimetric analysis to determine the concentration of substances in solutions based on their absorption characteristics. By measuring the intensity of light absorbed by a solution at specific wavelengths, researchers can infer the concentration of chemicals present. This method is widely used in fields such as chemistry, biology, and environmental science.Furthermore, the understanding of absorption caused colour has led to innovations in technology, particularly in the development of screens and displays. The colors we see on our devices are a result of how light is emitted and absorbed by the materials used in screens. Advances in display technology continue to improve color accuracy and vibrancy, enhancing our viewing experiences.In conclusion, absorption caused colour is a fascinating concept that permeates various aspects of our lives. From the natural world to art, design, science, and technology, the way materials absorb and reflect light shapes our perception of color. By deepening our understanding of this phenomenon, we can enhance our creativity, improve our designs, and contribute to scientific advancements. Color is not just a visual experience; it is a complex interplay of light and matter that enriches our lives in countless ways.

颜色是我们视觉体验的重要方面，影响着我们的情感、感知，甚至决策。与颜色相关的一个最引人入胜的现象是“吸收导致的颜色”这一概念。这个术语指的是材料吸收特定波长的光线，同时反射其他波长，从而导致我们所感知的颜色。理解这个概念不仅增强了我们对艺术和自然的欣赏，还有在设计、科学和技术等各个领域的实际应用。当光照射到物体上时，它可以被吸收、反射或透射。被吸收的光的特定波长决定了我们所看到的颜色。例如，叶子呈绿色是因为它吸收大多数波长，而反射绿色。这一过程被称为选择性吸收，并在自然界中发挥着至关重要的作用。植物利用这一原理来利用阳光进行光合作用，吸收光能将二氧化碳和水转化为葡萄糖和氧气。在艺术的世界中，理解吸收导致的颜色可以帮助艺术家明智地选择他们的材料。例如，艺术家通常根据颜料与光的相互作用来选择颜料。有些颜料在某些光照条件下可能看起来鲜艳，但由于其吸收特性，在其他条件下可能显得暗淡。这种知识使艺术家能够创造出能够唤起特定感受或氛围的作品，具体取决于他们使用的颜色以及这些颜色与光的互动。此外，吸收导致的颜色这一概念超越了艺术，进入了设计和技术的领域。在建筑中，建筑物的颜色可以影响其温度调节。较深的表面吸收来自阳光的更多热量，而较浅的表面则反射更多。设计师在选择建筑材料和颜色时必须考虑这些因素，以优化能源效率和舒适度。此外，研究吸收导致的颜色在科学研究中至关重要。科学家们使用色度分析法根据物质的吸收特性来确定溶液中物质的浓度。通过测量在特定波长下溶液吸收的光强度，研究人员可以推断出存在的化学物质的浓度。这种方法广泛应用于化学、生物学和环境科学等领域。此外，理解吸收导致的颜色还促成了技术的创新，尤其是在屏幕和显示器的开发中。我们在设备上看到的颜色是光如何被发出和被屏幕材料吸收的结果。显示技术的进步继续提高颜色的准确性和鲜艳度，增强我们的观看体验。总之，吸收导致的颜色是一个迷人的概念，渗透到我们生活的各个方面。从自然界到艺术、设计、科学和技术，材料如何吸收和反射光线塑造了我们对颜色的感知。通过加深对这一现象的理解，我们可以增强我们的创造力，改善我们的设计，并推动科学进步。颜色不仅仅是一种视觉体验；它是光与物质之间复杂的相互作用，以无数种方式丰富着我们的生活。