residue quantity

简明释义

残余物数量

英英释义

例句

1.In the food industry, it's crucial to monitor the residue quantity 残留量 of pesticides on produce.

在食品行业，监测农药在农产品上的残留量 residue quantity至关重要。

2.After the chemical reaction, we measured the residue quantity 残留量 to ensure all reactants were consumed.

在化学反应后，我们测量了残留量 residue quantity以确保所有反应物都被消耗。

3.To comply with regulations, we need to report the residue quantity 残留量 in our waste disposal.

为了遵守规定，我们需要报告废物处理中的残留量 residue quantity。

4.The manufacturer checked the residue quantity 残留量 of chemicals in the final product before shipping.

制造商在发货前检查最终产品中的残留量 residue quantity。

5.The laboratory report indicated that the residue quantity 残留量 of the solvent was below acceptable limits.

实验室报告指出，溶剂的残留量 residue quantity低于可接受的限度。

作文

In the field of science and engineering, understanding various concepts is crucial for effective problem-solving and innovation. One such concept is the residue quantity, which refers to the amount of material that remains after a process has taken place. This term is particularly significant in chemistry, environmental science, and manufacturing, where the efficiency of a process can greatly impact both the economy and the environment. For instance, in chemical reactions, the residue quantity can indicate the extent to which reactants have been converted into products. A high residue quantity may suggest that the reaction was incomplete, leading to wasted materials and potentially harmful byproducts.In environmental science, the residue quantity is essential for assessing pollution levels and the effectiveness of waste management practices. When hazardous substances are treated or disposed of, measuring the residue quantity helps determine whether the methods used are sufficient to mitigate environmental risks. For example, if a certain chemical treatment is applied to contaminated soil, scientists will evaluate the residue quantity of harmful substances remaining after the treatment. This information is vital for ensuring that the land is safe for future use and that ecosystems are protected.Manufacturers also pay close attention to the residue quantity during production processes. In industries such as food processing, pharmaceuticals, and electronics, minimizing residue is crucial for quality control and cost-effectiveness. For instance, in food manufacturing, leftover ingredients that do not contribute to the final product can lead to increased costs and waste. By optimizing recipes and processes, companies aim to reduce the residue quantity to ensure that resources are used efficiently and sustainably.Moreover, the concept of residue quantity extends beyond physical materials to include data and information. In data analysis, residue can refer to the unexplained variance in a statistical model. Understanding this residue quantity helps researchers refine their models and improve predictions. For example, in a study examining the factors influencing student performance, the residue quantity might represent the variation in scores that cannot be attributed to the measured variables. By analyzing this residue, educators can gain insights into additional factors affecting learning outcomes.In summary, the residue quantity is a multifaceted concept that plays a vital role across various disciplines. Its implications are far-reaching, impacting everything from chemical safety to manufacturing efficiency and data analysis. By thoroughly understanding and managing the residue quantity, professionals can enhance productivity, protect the environment, and improve overall outcomes in their respective fields. As we continue to face global challenges such as resource scarcity and environmental degradation, the importance of minimizing residue quantities becomes increasingly clear. Therefore, ongoing research and innovation aimed at reducing residue should remain a priority for scientists, engineers, and policymakers alike.

在科学和工程领域，理解各种概念对于有效的问题解决和创新至关重要。其中一个概念是残留量，指的是在某个过程发生后剩余的材料数量。这个术语在化学、环境科学和制造业中特别重要，因为过程的效率对经济和环境的影响都很大。例如，在化学反应中，残留量可以表明反应物转化为产品的程度。高残留量可能表明反应不完全，导致材料浪费和潜在的有害副产品。在环境科学中，残留量对于评估污染水平和废物管理实践的有效性至关重要。当处理或处置有害物质时，测量残留量有助于确定所使用的方法是否足以减轻环境风险。例如，当对受污染的土壤进行某种化学处理时，科学家将评估处理后残留的有害物质的残留量。这一信息对于确保土地在未来安全使用以及保护生态系统至关重要。制造商在生产过程中也非常关注残留量。在食品加工、制药和电子等行业，最小化残留物对于质量控制和成本效益至关重要。例如，在食品制造中，未能贡献于最终产品的剩余成分可能导致成本和浪费增加。通过优化配方和流程，公司旨在减少残留量，以确保资源的高效和可持续使用。此外，残留量的概念超越了物理材料，还包括数据和信息。在数据分析中，残留物可以指统计模型中未解释的方差。理解这一残留量有助于研究人员完善他们的模型并改善预测。例如，在研究影响学生表现的因素时，残留量可能代表无法归因于测量变量的分数变异。通过分析这一残留，教育工作者可以获得关于影响学习成果的额外因素的见解。总之，残留量是一个多方面的概念，在各个学科中发挥着重要作用。它的影响范围广泛，影响从化学安全到制造效率和数据分析的一切。通过全面理解和管理残留量，专业人士能够提高生产力、保护环境，并改善各自领域的整体成果。随着我们继续面临资源短缺和环境退化等全球挑战，最小化残留量的重要性变得愈加明显。因此，旨在减少残留的持续研究和创新应成为科学家、工程师和政策制定者的优先事项。