specific conductance

简明释义

电导率

英英释义

例句

1.To determine the salinity of the ocean water, scientists measured its specific conductance 比电导率 in various locations.

为了确定海水的盐度，科学家在不同地点测量了其比电导率 specific conductance。

2.A high specific conductance 比电导率 reading can indicate the presence of dissolved solids in the water.

高比电导率 specific conductance 读数可能表明水中存在溶解固体。

3.In hydroponics, monitoring the specific conductance 比电导率 helps optimize nutrient levels for plant growth.

在水培中，监测比电导率 specific conductance 有助于优化植物生长的营养水平。

4.The environmental agency set a standard for specific conductance 比电导率 to protect aquatic life.

环保机构设定了一个比电导率 specific conductance 标准，以保护水生生物。

5.The water quality report indicated that the specific conductance 比电导率 of the river was higher than normal, suggesting possible pollution.

水质报告显示，河流的比电导率 specific conductance 高于正常水平，这可能表明存在污染。

作文

Specific conductance, also known as specific conductivity, is a crucial concept in the field of chemistry and environmental science. It refers to the ability of a solution to conduct electric current, which is influenced by the concentration of ions present in the solution. The higher the concentration of ions, the greater the specific conductance (特定电导率) of the solution. This property is essential for various applications, including water quality assessment, industrial processes, and even in biological systems.In environmental science, monitoring the specific conductance (特定电导率) of water bodies can provide valuable insights into their health and quality. For instance, natural freshwater sources typically have low specific conductance (特定电导率) values, indicating low levels of dissolved salts and pollutants. However, if the specific conductance (特定电导率) increases significantly, it may suggest contamination or the presence of excessive nutrients, which could lead to problems such as algal blooms.Industries also rely heavily on measuring specific conductance (特定电导率) to ensure the quality of their products. For example, in the field of pharmaceuticals, the purity of water used in manufacturing processes is critical. High specific conductance (特定电导率) readings can indicate impurities that might affect the efficacy of the final product. Thus, maintaining optimal specific conductance (特定电导率) levels is vital for compliance with regulatory standards and ensuring consumer safety.Moreover, specific conductance (特定电导率) plays a significant role in understanding biological processes. In living organisms, ions are essential for various physiological functions, including muscle contraction and nerve impulse transmission. The balance of these ions is crucial, and any disturbance can lead to health issues. Therefore, studying the specific conductance (特定电导率) of bodily fluids can help diagnose certain medical conditions and monitor overall health.To measure specific conductance (特定电导率), scientists typically use a conductivity meter, which provides a quick and accurate assessment of the ion concentration in a solution. This measurement is often expressed in microsiemens per centimeter (µS/cm). Understanding how to interpret these values is essential for researchers and professionals working in relevant fields.In conclusion, specific conductance (特定电导率) is a fundamental property that has far-reaching implications across various domains. From environmental monitoring to industrial quality control and biological research, being able to accurately measure and interpret specific conductance (特定电导率) is crucial for ensuring safety, quality, and efficiency. As we continue to explore the complexities of our environment and health, the importance of understanding concepts like specific conductance (特定电导率) will only grow, highlighting the interconnectedness of science and its practical applications in our daily lives.

特定电导率，也称为特定导电性，是化学和环境科学领域中的一个重要概念。它指的是溶液导电的能力，这种能力受到溶液中离子浓度的影响。离子浓度越高，溶液的特定电导率（specific conductance）就越大。这一性质在水质评估、工业过程甚至生物系统等多种应用中至关重要。在环境科学中，监测水体的特定电导率（specific conductance）可以提供有关其健康和质量的宝贵见解。例如，自然淡水源通常具有较低的特定电导率（specific conductance）值，表明溶解盐和污染物的水平较低。然而，如果特定电导率（specific conductance）显著增加，可能表明污染或过量营养物质的存在，这可能导致问题，例如藻类暴发。工业也非常依赖于测量特定电导率（specific conductance）来确保产品的质量。例如，在制药领域，制造过程中使用的水的纯度至关重要。高特定电导率（specific conductance）读数可能表明杂质，这可能影响最终产品的有效性。因此，保持最佳的特定电导率（specific conductance）水平对于遵守法规标准和确保消费者安全至关重要。此外，特定电导率（specific conductance）在理解生物过程方面也发挥着重要作用。在生物体内，离子对各种生理功能至关重要，包括肌肉收缩和神经脉冲传递。这些离子的平衡至关重要，任何干扰都可能导致健康问题。因此，研究体液的特定电导率（specific conductance）可以帮助诊断某些医疗条件并监测整体健康。为了测量特定电导率（specific conductance），科学家通常使用电导率计，该仪器能够快速准确地评估溶液中的离子浓度。这一测量通常以微西门子每厘米（µS/cm）表示。理解如何解释这些数值对于从事相关领域的研究人员和专业人士至关重要。总之，特定电导率（specific conductance）是一种基本特性，在各个领域都有深远的影响。从环境监测到工业质量控制，再到生物研究，能够准确测量和解释特定电导率（specific conductance）对确保安全、质量和效率至关重要。随着我们继续探索环境和健康的复杂性，理解像特定电导率（specific conductance）这样的概念的重要性只会增加，突显出科学及其在我们日常生活中的实际应用之间的相互联系。