colorimetry

简明释义

英[ˌkʌləˈrɪmətri]美[ˌkʌləˈrɪmətri]

n. 比色法

英英释义

单词用法

同义词

反义词

例句

1.The result of this method is consistent with the colorimetry which uses methyl thymol blue as reagent.

本法结果与用甲基麝香草酚蓝为试剂的比色法一致。

2.METHODS colorimetry was applied to determine prednisolone acetate in the nasal drops.

方法：采用比色法测定制剂中醋酸泼尼松龙的含量。

3.This text is detailed to introduce some photo-electricity colorimetry thermometer.

文中还分类详细介绍了光电比色温度计。

4.Moreover, the paper researched the assay of gold in ores with the method of sample solving with microwave-drop extraction colorimetry.

研究了活性炭纤维滤布富集分离的条件和解脱方法，并利用微波溶样、液珠萃取比色法测定矿石中的金。

5.By the view of the colorimetry the slice images were analyzed so that the useful information was obtained for the reconstruction.

并从色度学的角度分析各个断面的图像，以获取我们所要的图像信息，从而为后续的重建提供数据。

6.The recommended numerical value of cement colorimetry was presented.

提出了水泥企业色度控制指标的推荐数值。

7.OBJECTIVE:To establish phenol-vitriolic colorimetry for the assaying of polysaccharides in Torreya yunnanensis.

目的：建立以苯酚-硫酸比色法测定云南榧子中多糖含量的方法。

8.In the laboratory, we use colorimetry 比色法 to determine the concentration of substances in solutions.

在实验室中，我们使用colorimetry 比色法来确定溶液中物质的浓度。

9.The colorimetry 比色法 technique is essential for analyzing water quality in environmental studies.

在环境研究中，colorimetry 比色法技术对于分析水质至关重要。

10.By applying colorimetry 比色法, researchers can identify the presence of certain chemicals in food products.

通过应用colorimetry 比色法，研究人员可以识别食品产品中某些化学物质的存在。

11.The accuracy of colorimetry 比色法 is crucial for pharmaceutical companies during drug development.

在制药公司进行药物开发时，colorimetry 比色法的准确性至关重要。

12.In clinical laboratories, colorimetry 比色法 is used to measure hemoglobin levels in blood samples.

在临床实验室中，colorimetry 比色法用于测量血样中的血红蛋白水平。

作文

Colorimetry is a scientific technique used to determine the concentration of colored compounds in a solution. This method relies on the principle that different substances absorb light at specific wavelengths, which can be measured and quantified. The importance of colorimetry (比色法) extends across various fields, including chemistry, biology, and environmental science. By providing accurate measurements of color intensity, colorimetry (比色法) allows researchers and analysts to draw meaningful conclusions about the properties and concentrations of different substances. In chemistry, for example, colorimetry (比色法) is often employed in titrations to ascertain the concentration of an unknown solution by comparing its color to that of a standard solution. This practice not only enhances the precision of chemical analyses but also supports the development of new compounds by allowing chemists to monitor reactions visually. The ability to measure color changes in a controlled manner is crucial for ensuring the accuracy of experimental results. In the field of biology, colorimetry (比色法) plays a vital role in analyzing biological samples. For instance, it is used in clinical laboratories to assess the concentration of various biomolecules, such as proteins and enzymes, in blood or urine samples. By utilizing colorimetry (比色法), medical professionals can diagnose diseases, monitor health conditions, and evaluate the effectiveness of treatments. This application highlights how colorimetry (比色法) bridges the gap between science and healthcare, ultimately improving patient outcomes. Environmental scientists also rely on colorimetry (比色法) to monitor water quality and detect pollutants. By measuring the concentration of harmful substances in water samples, researchers can assess the impact of industrial activities on aquatic ecosystems. This information is essential for implementing regulations and protecting natural resources. The use of colorimetry (比色法) in environmental studies demonstrates its versatility and significance in addressing real-world challenges. Moreover, advancements in technology have further enhanced the capabilities of colorimetry (比色法). Modern instruments, such as spectrophotometers, allow for rapid and highly accurate measurements of color intensity. These devices can analyze multiple samples simultaneously, increasing efficiency in laboratories. As a result, researchers can obtain more data in less time, facilitating faster decision-making processes across various industries. In conclusion, colorimetry (比色法) is a fundamental technique that has far-reaching applications in science and industry. Its ability to provide precise measurements of color intensity makes it an invaluable tool for chemists, biologists, and environmental scientists alike. As technology continues to evolve, the potential for colorimetry (比色法) to contribute to scientific advancements and improve societal well-being will only increase. Understanding and mastering the principles of colorimetry (比色法) is essential for anyone looking to excel in the fields of science and technology.

比色法是一种科学技术，用于确定溶液中有色化合物的浓度。这种方法依赖于不同物质在特定波长下吸收光的原理，这可以被测量和量化。colorimetry（比色法）的重要性遍及多个领域，包括化学、生物学和环境科学。通过提供准确的颜色强度测量，colorimetry（比色法）使研究人员和分析师能够得出关于不同物质的性质和浓度的有意义结论。 例如，在化学领域，colorimetry（比色法）通常用于滴定，以通过将未知溶液的颜色与标准溶液的颜色进行比较来确定其浓度。这种做法不仅提高了化学分析的精确度，还支持新化合物的开发，使化学家能够直观地监测反应。以受控方式测量颜色变化的能力对于确保实验结果的准确性至关重要。 在生物学领域，colorimetry（比色法）在分析生物样本方面发挥着至关重要的作用。例如，它被用于临床实验室中评估血液或尿液样本中各种生物分子的浓度。通过利用colorimetry（比色法），医疗专业人员可以诊断疾病、监测健康状况并评估治疗效果。这一应用突显了colorimetry（比色法）如何弥合科学与医疗保健之间的差距，最终改善患者的健康结果。 环境科学家也依赖于colorimetry（比色法）来监测水质和检测污染物。通过测量水样中有害物质的浓度，研究人员可以评估工业活动对水生生态系统的影响。这些信息对于实施法规和保护自然资源至关重要。在环境研究中使用colorimetry（比色法）展示了其在解决现实世界挑战中的多功能性和重要性。 此外，技术的进步进一步增强了colorimetry（比色法）的能力。现代仪器，如分光光度计，允许快速和高度准确的颜色强度测量。这些设备可以同时分析多个样本，提高实验室的效率。因此，研究人员可以在更短的时间内获得更多的数据，从而加快各行业的决策过程。 总之，colorimetry（比色法）是一种基本技术，在科学和工业中具有广泛的应用。它提供的精确颜色强度测量使其成为化学家、生物学家和环境科学家的宝贵工具。随着技术的不断发展，colorimetry（比色法）在推动科学进步和改善社会福祉方面的潜力只会增加。理解和掌握colorimetry（比色法）的原理对于任何希望在科学和技术领域取得成功的人来说都是至关重要的。