chemical working

简明释义

化学加工

英英释义

例句

1.The chemical working 化学操作 of this compound requires precise measurements and controlled conditions.

这种化合物的chemical working 化学操作需要精确的测量和控制条件。

2.Researchers are studying the chemical working 化学操作 of enzymes in metabolic pathways.

研究人员正在研究代谢途径中酶的chemical working 化学操作。

3.The lab technician is responsible for the chemical working 化学操作 of various substances to ensure accurate results.

实验室技术员负责各种物质的chemical working 化学操作以确保准确的结果。

4.In industrial settings, chemical working 化学操作 must adhere to strict safety regulations.

在工业环境中，chemical working 化学操作必须遵循严格的安全规定。

5.Understanding the chemical working 化学操作 of reactions is crucial for any chemistry student.

理解反应的chemical working 化学操作对任何化学学生来说都是至关重要的。

作文

The field of chemistry is vast and encompasses various processes that contribute to our understanding of matter and its interactions. One such process is referred to as chemical working, which involves the manipulation and transformation of substances through chemical reactions. This concept is fundamental in both theoretical and practical applications in chemistry, as it allows scientists to create new compounds, understand reaction mechanisms, and develop innovative materials.To illustrate the importance of chemical working, consider the process of synthesizing a new pharmaceutical drug. In this scenario, chemists must engage in chemical working to combine different reactants under specific conditions to produce a desired product. This involves not only the selection of appropriate starting materials but also the optimization of reaction conditions such as temperature, pressure, and solvent choice. Each decision made during this process can significantly impact the yield and purity of the final product.Moreover, chemical working is not limited to the laboratory; it also plays a crucial role in industrial processes. For example, in the production of plastics, chemical working is essential for polymerization, where small monomer units are chemically bonded to form long chains. The properties of the resulting plastic depend heavily on the chemical working techniques used, including the choice of catalysts and reaction conditions. This highlights how chemical working directly influences the quality and functionality of everyday materials.In addition to practical applications, chemical working also has significant implications for environmental science. Understanding how different chemicals interact in nature is vital for addressing issues such as pollution and climate change. For instance, chemists study the chemical working of pollutants in the environment to devise strategies for remediation and to develop sustainable practices. By grasping the intricacies of chemical working, researchers can design more effective solutions to mitigate environmental damage.Furthermore, education in chemistry often emphasizes the importance of chemical working through hands-on experiments. Students learn to observe and analyze reactions, gaining insight into the principles governing chemical changes. This experiential learning fosters a deeper appreciation for the subject and equips future scientists with the skills necessary to conduct their own chemical working. Such foundational knowledge is critical for advancing research and innovation in various scientific fields.In conclusion, chemical working is a cornerstone of chemistry that enables the transformation of substances through controlled reactions. Its applications range from drug synthesis and industrial production to environmental protection and education. By understanding and mastering chemical working, scientists can unlock new possibilities and address some of the most pressing challenges facing society today. As we continue to explore the complexities of matter, the significance of chemical working will undoubtedly remain at the forefront of scientific inquiry and technological advancement.

化学领域广阔，涵盖了多种过程，这些过程有助于我们理解物质及其相互作用。其中一个过程被称为化学工作，涉及通过化学反应对物质进行操控和转化。这个概念在化学的理论和实践应用中都是基础，因为它使科学家能够创造新的化合物，理解反应机制，并开发创新材料。为了说明化学工作的重要性，可以考虑合成新药物的过程。在这种情况下，化学家必须参与化学工作，以特定条件下结合不同的反应物，以产生所需的产品。这不仅涉及选择合适的起始材料，还包括优化反应条件，例如温度、压力和溶剂选择。在这个过程中做出的每一个决策都可能对最终产品的产量和纯度产生重大影响。此外，化学工作不仅限于实验室；它在工业过程中也发挥着至关重要的作用。例如，在塑料生产中，化学工作对于聚合反应至关重要，在该过程中，小的单体单位通过化学键合形成长链。所产生塑料的性质在很大程度上取决于所使用的化学工作技术，包括催化剂的选择和反应条件。这突显了化学工作如何直接影响日常材料的质量和功能。除了实际应用，化学工作在环境科学中也具有重要意义。了解不同化学物质在自然界中的相互作用对于解决污染和气候变化等问题至关重要。例如，化学家研究环境中污染物的化学工作，以制定修复策略并发展可持续实践。通过掌握化学工作的细微差别，研究人员可以设计出更有效的解决方案来减轻环境损害。此外，化学教育通常强调通过动手实验来理解化学工作的重要性。学生们学习观察和分析反应，从而深入了解化学变化的原理。这种体验式学习培养了对该学科的更深刻欣赏，并为未来的科学家提供了进行自己化学工作所需的技能。这种基础知识对于推动各科学领域的研究和创新至关重要。总之，化学工作是化学的基石，使得通过受控反应实现物质的转化。它的应用范围从药物合成、工业生产到环境保护和教育。通过理解和掌握化学工作，科学家能够打开新的可能性，解决当今社会面临的一些最紧迫的挑战。随着我们继续探索物质的复杂性，化学工作的重要性无疑将继续处于科学探究和技术进步的前沿。