capillary analysis

简明释义

毛细管分析

英英释义

例句

1.For the new drug formulation, capillary analysis was performed to assess how it spreads in the bloodstream.

对于新药配方，进行了毛细管分析以评估其在血液中的扩散情况。

2.In the field of biology, capillary analysis is essential for studying blood flow in small vessels.

在生物学领域，毛细管分析对于研究小血管中的血流至关重要。

3.The capillary analysis revealed important insights into the soil's moisture retention capabilities.

毛细管分析揭示了土壤水分保持能力的重要见解。

4.The researchers conducted a capillary analysis to understand the fluid dynamics in the microchannels.

研究人员进行了毛细管分析以理解微通道中的流体动力学。

5.During the experiment, the team used capillary analysis to measure the absorption rates of different liquids.

在实验过程中，团队使用毛细管分析来测量不同液体的吸收速率。

作文

Capillary analysis is a significant technique used in various scientific fields, particularly in chemistry and biology. This method involves the study of capillaries, which are small blood vessels that play a crucial role in the circulatory system. The term 'capillary' refers to the tiny tubes that connect arteries and veins, allowing for the exchange of nutrients, gases, and waste products between blood and tissues. In the context of scientific research, capillary analysis (毛细血管分析) focuses on understanding the properties and behaviors of these small vessels, which can provide valuable insights into various physiological processes.One of the primary applications of capillary analysis (毛细血管分析) is in the study of blood flow and circulation. By examining how blood moves through capillaries, researchers can gain a better understanding of how oxygen and nutrients are delivered to cells and how waste products are removed. This knowledge is essential for diagnosing and treating various medical conditions, such as cardiovascular diseases, diabetes, and even cancer.In addition to its medical applications, capillary analysis (毛细血管分析) is also used in environmental science. For instance, scientists can analyze how pollutants move through soil and water via capillary action. This understanding can help in assessing the impact of contaminants on ecosystems and in developing strategies for remediation. By studying the interaction between fluids and porous materials, researchers can predict how substances will behave in different environmental conditions.Moreover, capillary analysis (毛细血管分析) has implications in the field of materials science. The behavior of liquids in small channels is crucial for the development of new materials and technologies, including microfluidics, which is the manipulation of fluids at the microscale. This technology is increasingly being used in laboratories for various applications, such as drug delivery systems and diagnostic devices.To perform capillary analysis (毛细血管分析), scientists often use specialized equipment and techniques, such as microscopy and imaging technologies. These tools allow for detailed observation and measurement of capillary structures and functions. Furthermore, mathematical models are frequently employed to simulate fluid dynamics within capillaries, providing a theoretical framework for understanding experimental results.In conclusion, capillary analysis (毛细血管分析) is a versatile and essential technique that spans multiple disciplines. Its applications range from medicine to environmental science and materials engineering, highlighting its importance in advancing our understanding of complex biological and physical processes. As research continues to evolve, the insights gained from capillary analysis (毛细血管分析) will undoubtedly contribute to significant advancements in health care, environmental protection, and innovative material development.

毛细血管分析是一种在多个科学领域中使用的重要技术，特别是在化学和生物学中。这种方法涉及对毛细血管的研究，毛细血管是小型血管，在循环系统中发挥着关键作用。术语“毛细血管”指的是连接动脉和静脉的小管道，允许营养物质、气体和废物在血液与组织之间进行交换。在科学研究的背景下，毛细血管分析（capillary analysis）侧重于理解这些小血管的特性和行为，这可以为各种生理过程提供宝贵的见解。毛细血管分析（capillary analysis）的主要应用之一是在血流和循环的研究中。通过检查血液如何在毛细血管中移动，研究人员可以更好地理解氧气和营养物质如何被输送到细胞，以及废物如何被去除。这些知识对于诊断和治疗各种疾病至关重要，例如心血管疾病、糖尿病甚至癌症。除了医学应用，毛细血管分析（capillary analysis）在环境科学中也得到了应用。例如，科学家可以分析污染物如何通过毛细作用在土壤和水中移动。这种理解有助于评估污染物对生态系统的影响，并制定修复策略。通过研究流体与多孔材料之间的相互作用，研究人员可以预测物质在不同环境条件下的行为。此外，毛细血管分析（capillary analysis）在材料科学领域也具有重要意义。液体在小通道中的行为对于新材料和技术的发展至关重要，包括微流体技术，即在微尺度上操控流体。这项技术越来越多地用于实验室中的各种应用，例如药物递送系统和诊断设备。为了进行毛细血管分析（capillary analysis），科学家通常使用专业设备和技术，如显微镜和成像技术。这些工具允许对毛细血管结构和功能进行详细观察和测量。此外，数学模型经常被用来模拟毛细管内的流体动力学，为理解实验结果提供理论框架。总之，毛细血管分析（capillary analysis）是一种多功能且必不可少的技术，跨越多个学科。它的应用范围从医学到环境科学和材料工程，突显了其在推进我们对复杂生物和物理过程理解中的重要性。随着研究的不断发展，从毛细血管分析（capillary analysis）中获得的见解无疑将为医疗保健、环境保护和创新材料开发的重大进展做出贡献。