volumetrically

简明释义

英[ˌvɒl.jʊˈmɛ.trɪ.kli]美[ˌvɑː.ljuˈmɛ.trɪ.kli]

测试体积地

体积地

容积地

英英释义

单词用法

同义词

反义词

例句

1.ZB rotary piston fillers are suitable to fill volumetrically all pumpable products.

旋转活塞式灌装机适合容积灌装泵输送的物料。

2.ZB rotary piston fillers are suitable to fill volumetrically all pumpable products.

旋转活塞式灌装机适合容积灌装泵输送的物料。

3.The liquid was measured volumetrically to ensure precise quantities for the experiment.

液体是通过体积测量的，以确保实验所需的精确数量。

4.In this study, we calculated the mass of the gas volumetrically using standard conditions.

在这项研究中，我们使用标准条件通过体积计算气体的质量。

5.When filling the tank, make sure to measure the fuel volumetrically to avoid overflow.

加油时，请确保通过体积测量燃料，以避免溢出。

6.The chef added ingredients volumetrically to maintain consistency in the recipe.

厨师通过体积添加配料，以保持食谱的一致性。

7.The lab technician recorded the samples volumetrically for accurate analysis.

实验室技术员通过体积记录样本，以便进行准确分析。

作文

In the field of science and engineering, precise measurements are crucial for successful experiments and applications. One such measurement is done volumetrically, which refers to the determination of the volume of a substance or mixture. This method is essential in various disciplines, including chemistry, biology, and environmental science. Understanding how to measure substances volumetrically can provide accurate data that leads to better outcomes in research and development.For instance, in a typical chemistry laboratory, students often learn to measure liquids using graduated cylinders or volumetric flasks. These tools allow for the volumetric measurement of liquid volumes with great precision. When preparing solutions, it is vital to add the correct amount of solvent to achieve the desired concentration. If the measurements are not done volumetrically, the results could be skewed, leading to inaccurate conclusions.Moreover, volumetric measurements are not limited to liquids; they also apply to gases and solids. In the case of gases, scientists often use gas syringes or gas flow meters to determine the volume of gas produced in a reaction. Similarly, for solids, one might use techniques such as water displacement to find the volume of irregularly shaped objects. Understanding these methods is essential for anyone working in a laboratory setting.In environmental studies, volumetric analysis plays a significant role in assessing pollutants in water bodies. For example, when testing water quality, scientists may need to measure the volume of contaminants present in a sample. By performing these tests volumetrically, they can ensure that the data collected are reliable and can be used to make informed decisions about environmental policies and regulations.Additionally, the food and beverage industry relies heavily on volumetric measurements during the production process. Accurate measurement of ingredients is critical for maintaining quality and consistency in products. For instance, when brewing beer, the precise volume of water, malt, and hops must be measured volumetrically to ensure the final product meets the desired flavor profile and alcohol content.Furthermore, advances in technology have improved the way we perform volumetric measurements. Automated systems and digital measuring devices have made it easier to obtain accurate readings, reducing human error and increasing efficiency. These innovations are particularly beneficial in high-throughput laboratories where numerous samples need to be processed quickly.In conclusion, the concept of measuring substances volumetrically is fundamental across various scientific fields. Whether in a laboratory, environmental study, or industrial application, accurate volume measurement is essential for obtaining reliable results. As technology continues to evolve, the methods and tools used for volumetric measurements will likely become even more sophisticated, enhancing our ability to conduct precise and meaningful research. Therefore, mastering volumetric techniques is an invaluable skill for students and professionals alike, laying the groundwork for future discoveries and innovations.

在科学和工程领域，精确的测量对成功的实验和应用至关重要。其中一种测量是通过体积法进行的，这指的是确定物质或混合物的体积。这种方法在化学、生物学和环境科学等多个学科中都是必不可少的。理解如何以体积法测量物质可以提供准确的数据，从而在研究和开发中获得更好的成果。例如，在典型的化学实验室中，学生们通常学习使用量筒或容量瓶来测量液体。这些工具允许以极高的精度进行液体体积的体积法测量。在制备溶液时，加入正确量的溶剂以实现所需浓度是至关重要的。如果测量不是以体积法进行的，结果可能会偏差，从而导致不准确的结论。此外，体积法测量不仅限于液体；它们也适用于气体和固体。在气体的情况下，科学家通常使用气体注射器或气体流量计来确定反应中产生的气体体积。同样，对于固体，可以使用水排量等技术来找到不规则形状物体的体积。理解这些方法对于任何在实验室工作的人都是必不可少的。在环境研究中，体积法分析在评估水体污染物方面发挥着重要作用。例如，在测试水质时，科学家可能需要测量样本中存在的污染物的体积。通过以体积法进行这些测试，他们可以确保收集的数据是可靠的，并可以用来做出关于环境政策和法规的明智决策。此外，食品和饮料行业在生产过程中严重依赖体积法测量。成分的准确测量对保持产品的质量和一致性至关重要。例如，在酿造啤酒时，必须以体积法精确测量水、麦芽和啤酒花的体积，以确保最终产品达到所需的风味特征和酒精含量。此外，技术的进步改善了我们进行体积法测量的方式。自动化系统和数字测量设备使得获得准确读数变得更加容易，减少了人为错误，提高了效率。这些创新在需要快速处理大量样本的高通量实验室中特别有益。总之，体积法测量物质的概念在各个科学领域都是基础。无论是在实验室、环境研究还是工业应用中，准确的体积测量对于获得可靠的结果至关重要。随着技术的不断发展，用于体积法测量的方法和工具可能会变得更加复杂，从而增强我们进行精确和有意义研究的能力。因此，掌握体积法技术对学生和专业人士来说是一项宝贵的技能，为未来的发现和创新奠定了基础。