absorption range

简明释义

吸收范围;

英英释义

例句

1.The absorption range of the chemical compound was analyzed to ensure it meets safety standards.

对该化合物的吸收范围进行了分析，以确保其符合安全标准。

2.The absorption range of this material is crucial for its effectiveness in filtering UV light.

这种材料的吸收范围对于其过滤紫外线的有效性至关重要。

3.Different materials have unique absorption ranges, affecting their performance in various applications.

不同材料具有独特的吸收范围，影响它们在各种应用中的性能。

4.In solar panel technology, understanding the absorption range can improve energy conversion efficiency.

在太阳能电池技术中，理解吸收范围可以提高能量转换效率。

5.Scientists measured the absorption range of various pigments to determine their suitability for art supplies.

科学家测量了各种颜料的吸收范围以确定它们是否适合用于艺术用品。

作文

The concept of absorption range is crucial in various scientific fields, particularly in physics and chemistry. It refers to the specific wavelengths of light or electromagnetic radiation that a substance can absorb. Understanding the absorption range of materials is essential for applications such as spectroscopy, where scientists analyze the interaction between light and matter to determine the composition of substances. For instance, when light passes through a colored solution, certain wavelengths are absorbed while others are transmitted. The absorption range indicates which wavelengths are absorbed by the molecules in the solution, providing insight into their chemical structure and properties.In environmental science, the absorption range of pollutants is studied to assess their impact on ecosystems. Different chemicals have unique absorption ranges, which can affect their behavior in natural waters. For example, heavy metals might absorb specific wavelengths of UV light, indicating their presence and concentration in water bodies. By measuring the absorption range, researchers can develop strategies to mitigate pollution and protect aquatic life.Moreover, the absorption range plays a significant role in the design of solar panels. Materials used in photovoltaic cells must have an optimal absorption range to efficiently convert sunlight into electricity. Engineers and scientists work together to create materials that maximize energy absorption across a broad spectrum of light, ensuring that solar panels can generate power even on cloudy days. This intersection of chemistry and engineering illustrates how understanding the absorption range can lead to technological advancements and more sustainable energy solutions.In medicine, the absorption range is also vital. For example, in phototherapy, specific wavelengths of light are used to treat skin conditions. The effectiveness of this treatment depends on the absorption range of the skin and the light used. Understanding how different wavelengths interact with biological tissues allows medical professionals to tailor treatments for maximum efficacy. Additionally, in diagnostic imaging, knowing the absorption range of various tissues can help in developing better imaging techniques that enhance the visibility of abnormalities or diseases.In conclusion, the absorption range is a fundamental concept that spans multiple disciplines, including physics, chemistry, environmental science, engineering, and medicine. Its implications are vast, affecting everything from pollution control to renewable energy technology and medical treatments. By studying and understanding the absorption range of different materials, scientists and engineers can innovate and improve existing technologies, ultimately benefiting society as a whole. The exploration of absorption range not only enhances our knowledge of the natural world but also paves the way for future discoveries and advancements that can address pressing global challenges.

“吸收范围”这个概念在多个科学领域中至关重要，尤其是在物理学和化学中。它指的是一种物质可以吸收的特定光波长或电磁辐射的范围。理解材料的“吸收范围”对于光谱学等应用至关重要，在光谱学中，科学家分析光与物质之间的相互作用，以确定物质的成分。例如，当光通过一个有色溶液时，某些波长会被吸收，而其他波长则会被透过。“吸收范围”指示了溶液中分子所吸收的波长，从而提供有关其化学结构和性质的洞察。在环境科学中，研究污染物的“吸收范围”是评估其对生态系统影响的重要环节。不同化学物质具有独特的“吸收范围”，这可能会影响它们在自然水体中的行为。例如，重金属可能会吸收特定的紫外线光波长，表明它们在水体中的存在和浓度。通过测量“吸收范围”，研究人员可以制定策略来减轻污染并保护水生生命。此外，“吸收范围”在太阳能电池板的设计中也扮演着重要角色。光伏电池中使用的材料必须具有最佳的“吸收范围”，以有效地将阳光转化为电能。工程师和科学家共同努力，创造出在广泛光谱内最大化能量吸收的材料，确保即使在阴天，太阳能电池板也能发电。这种化学与工程的交叉展示了理解“吸收范围”如何导致技术进步和更可持续的能源解决方案。在医学领域，“吸收范围”同样至关重要。例如，在光疗中，特定波长的光用于治疗皮肤疾病。这种治疗的有效性依赖于皮肤和所用光的“吸收范围”。理解不同波长如何与生物组织相互作用，使医疗专业人员能够量身定制治疗方案，以达到最佳效果。此外，在诊断成像中，了解各种组织的“吸收范围”可以帮助开发更好的成像技术，从而增强异常或疾病的可见性。总之，“吸收范围”是一个基础概念，跨越多个学科，包括物理、化学、环境科学、工程和医学。它的影响广泛，涉及从污染控制到可再生能源技术和医疗治疗的方方面面。通过研究和理解不同材料的“吸收范围”，科学家和工程师可以创新并改善现有技术，最终惠及整个社会。“吸收范围”的探索不仅增强了我们对自然世界的认识，还为未来的发现和进步铺平了道路，这些发现和进步可以应对紧迫的全球挑战。