absorption formule

简明释义

1. 吸收性公式; 2. 吸收公式;

英英释义

例句

1.To improve the efficiency of solar panels, engineers must consider the absorption formule of different materials.

为了提高太阳能电池板的效率，工程师必须考虑不同材料的吸收公式。

2.In environmental studies, the absorption formule helps to calculate the concentration of pollutants in water.

在环境研究中，吸收公式有助于计算水中污染物的浓度。

3.The researcher used the absorption formule to analyze the effectiveness of the new drug.

研究人员使用吸收公式来分析新药的有效性。

4.In physics, the absorption formule is crucial for understanding how waves interact with different mediums.

在物理学中，吸收公式对于理解波与不同介质的相互作用至关重要。

5.The chemist explained the significance of the absorption formule in determining how much light a substance can absorb.

化学家解释了吸收公式在确定物质能够吸收多少光的重要性。

作文

The concept of absorption formule plays a significant role in various fields, particularly in chemistry and physics. In simple terms, the absorption formule refers to a mathematical equation or model that describes how substances absorb energy or light. Understanding this concept is crucial for scientists and researchers who aim to manipulate and utilize absorption phenomena for practical applications.In chemistry, the absorption formule is often used to quantify how different materials interact with light. For instance, when light passes through a solution, some wavelengths are absorbed while others are transmitted. The absorption formule can be expressed mathematically using Beer-Lambert Law, which states that the absorbance of a solution is directly proportional to the concentration of the absorbing species and the path length of the light. This relationship allows chemists to determine the concentration of a substance in a solution by measuring how much light is absorbed.Moreover, the absorption formule extends beyond mere calculations; it also has implications in environmental science. For example, understanding how pollutants absorb sunlight can help in assessing their impact on climate change. If certain gases or particles absorb more solar radiation, they can contribute to the greenhouse effect, leading to global warming. Therefore, the absorption formule becomes a critical tool for environmental scientists who seek to mitigate these effects.In the field of physics, the absorption formule is essential in understanding how materials respond to electromagnetic waves. Different materials have unique absorption characteristics, which can be described using specific formulas. For instance, in optics, the absorption formule helps explain phenomena such as the color of objects. When an object appears red, it is because it absorbs all other colors of light except for red. This selective absorption can be quantified and analyzed using the absorption formule, allowing physicists to predict how materials will behave under different lighting conditions.Additionally, the absorption formule is vital in developing new technologies. For example, in the field of photovoltaics, understanding how solar cells absorb sunlight is crucial for improving their efficiency. Researchers use the absorption formule to design materials that maximize light absorption and conversion into electricity. This application not only enhances renewable energy technology but also contributes to sustainable development goals.In conclusion, the absorption formule is a fundamental concept that bridges multiple disciplines, from chemistry and physics to environmental science and technology. Its ability to describe how substances absorb energy and light is invaluable for both theoretical research and practical applications. As we continue to explore the complexities of our universe, mastering the absorption formule will undoubtedly remain a key component in advancing scientific knowledge and innovation.

“吸收公式”这一概念在多个领域中发挥着重要作用，尤其是在化学和物理学中。简单来说，“吸收公式”指的是描述物质如何吸收能量或光的数学方程或模型。理解这一概念对于科学家和研究人员来说至关重要，因为他们旨在操纵和利用吸收现象以实现实际应用。在化学中，“吸收公式”常用于量化不同材料与光的相互作用。例如，当光通过溶液时，一些波长会被吸收，而另一些则会被透过。“吸收公式”可以用贝尔-朗伯定律（Beer-Lambert Law）进行数学表达，该定律指出，溶液的吸光度与吸收物质的浓度和光的路径长度成正比。这种关系使化学家能够通过测量光的吸收量来确定溶液中物质的浓度。此外，“吸收公式”不仅仅是计算工具；它在环境科学中也有深远的影响。例如，理解污染物如何吸收阳光可以帮助评估其对气候变化的影响。如果某些气体或颗粒吸收更多的太阳辐射，它们可能会加剧温室效应，导致全球变暖。因此，“吸收公式”成为环境科学家减轻这些影响的重要工具。在物理学领域，“吸收公式”对于理解材料如何响应电磁波至关重要。不同材料具有独特的吸收特性，可以用特定的公式来描述。例如，在光学中，“吸收公式”有助于解释诸如物体颜色等现象。当一个物体看起来是红色时，实际上是因为它吸收了其他颜色的光，而只反射红色。这种选择性吸收可以通过“吸收公式”进行量化和分析，使物理学家能够预测材料在不同光照条件下的行为。此外，“吸收公式”在新技术的发展中也至关重要。例如，在光伏领域，理解太阳能电池如何吸收阳光对于提高其效率至关重要。研究人员使用“吸收公式”设计最大化光吸收和转化为电能的材料。这一应用不仅提高了可再生能源技术，而且推动了可持续发展目标的实现。总之，“吸收公式”是一个基本概念，连接了多个学科，从化学和物理到环境科学和技术。它描述物质如何吸收能量和光的能力，对于理论研究和实际应用都是无价的。随着我们继续探索宇宙的复杂性，掌握“吸收公式”无疑将继续成为推动科学知识和创新的重要组成部分。