chemistries

简明释义

英[ˈkɛmɪstriz]美[ˈkɛmɪstriz]

化学

吸引

化学反应

英英释义

单词用法

同义词

反义词

例句

1.Developing state-of-the-art breaker chemistries is one thing, applying them correctly is another thing altogether.

研发出一流的破胶剂是一回事，但如何在实际中正确地进行应用却是另外一回事。

2.When combined with the detection and sample preparation chemistries, direct heating allows several test assays to be run in a single rapid reaction.

当联合进行检测与样品准备的时候，直接加热系统允许在单次快速反应中进行几项检测。

3.Many new RC chargers can handle multiple battery chemistries, including A123.

许多新的RC充电器可以处理多种电池化学组成，其中包括A123。

4.My roommate and her boyfriend were friends for four months before their chemistries clicked.

我的室友和她的男友在坠入情网之前，做了四个月的普通朋友。

5.Chemiluminescence (cl) has been exploited with a wide range of applications in different fields, such as biotechnology, pharmacology, molecular biology, and clinical and environmental chemistries.

化学发光技术在生物技术、分子生物学、药学、临床和环境等许多领域都获得了广泛的应用，有关化学发光的评论文章近年来也有许多报道。

6.This article outlines the advantage of powder coating, types of crosslinking chemistries, emerging technology trends, polyester resins and how monomers affect resin and coating properties.

概括了粉末涂料的优点，技术发展趋势，交联剂的类型、以聚酯树脂以及单体对树脂和涂层性能的影响。

7.The chemistries of the human body are complex and still not fully understood.

人体的化学过程复杂且仍未完全被理解。

8.Understanding the chemistries involved in drug interactions is crucial for pharmacists.

了解药物相互作用中涉及的化学反应对药剂师至关重要。

9.The chemistries of different metals can lead to unique properties in alloys.

不同金属的化学性质可以导致合金的独特特性。

10.In environmental science, the chemistries of pollutants can affect ecosystems significantly.

在环境科学中，污染物的化学特性可能会显著影响生态系统。

11.Different chemistries between ingredients can alter the taste of a dish.

成分之间不同的化学反应可以改变菜肴的味道。

作文

In the world of science, the term chemistries refers to the various interactions and relationships between different chemical substances. It encompasses not only the reactions that occur when substances combine but also the underlying principles that govern these interactions. Understanding chemistries is essential for numerous fields, including medicine, environmental science, and materials engineering. For instance, in medicine, the chemistries of drugs determine their effectiveness and safety in treating diseases. The way a drug interacts with the human body at a molecular level can mean the difference between a successful treatment and adverse effects. Similarly, in environmental science, the chemistries involved in pollutants and their reactions with natural elements are crucial for developing strategies to combat pollution and protect ecosystems.Moreover, chemistries also plays a significant role in our everyday lives. From the food we eat to the cleaning products we use, understanding the chemistries behind these items helps us make informed choices. For example, knowing how certain chemicals interact in food preservation can help us choose healthier options. Additionally, the chemistries of cleaning agents can guide us in selecting environmentally friendly products that minimize harm to our health and the planet.The study of chemistries is not limited to laboratory settings. It extends to the realm of social interactions as well. In relationships, people often talk about the chemistries that exist between individuals, referring to the emotional and psychological connections that bind them together. This metaphorical use of chemistries highlights the importance of compatibility and mutual attraction in personal relationships. Just as chemical substances can react positively or negatively with one another, so too can people, creating bonds that can be either harmonious or tumultuous.Furthermore, advancements in technology have allowed us to explore chemistries on a deeper level. With the rise of computational chemistry, scientists can simulate chemical reactions and predict outcomes without needing to conduct physical experiments. This not only saves time and resources but also opens new avenues for research and discovery. By understanding the chemistries at play, researchers can design better materials, develop innovative drugs, and create sustainable solutions for global challenges.In conclusion, the concept of chemistries is multifaceted, encompassing both scientific and social dimensions. Whether it is through the lens of chemical reactions in a lab or the dynamics of human relationships, chemistries shapes our understanding of the world around us. As we continue to explore and unravel the complexities of chemistries, we gain valuable insights that can lead to progress in various fields and enhance our daily lives. Thus, embracing the study of chemistries is not only beneficial for scientists but for everyone who wishes to navigate the intricate web of interactions that define our existence.

在科学界，术语chemistries指的是不同化学物质之间的各种相互作用和关系。它不仅包括物质结合时发生的反应，还包括支配这些相互作用的基本原理。理解chemistries对于许多领域至关重要，包括医学、环境科学和材料工程。例如，在医学中，药物的chemistries决定了其在治疗疾病中的有效性和安全性。药物与人体在分子层面的相互作用可能意味着成功治疗和不良反应之间的差异。同样，在环境科学中，污染物的chemistries及其与自然元素的反应对于制定对策以应对污染和保护生态系统至关重要。此外，chemistries还在我们的日常生活中发挥着重要作用。从我们吃的食物到使用的清洁产品，了解这些物品背后的chemistries可以帮助我们做出明智的选择。例如，了解某些化学物质在食品保存中的相互作用可以帮助我们选择更健康的选项。此外，清洁剂的chemistries可以指导我们选择环保产品，从而减少对我们健康和地球的危害。chemistries的研究并不限于实验室环境。它也扩展到社会互动的领域。在人际关系中，人们常常谈论个人之间存在的chemistries，指的是将他们联系在一起的情感和心理连接。这种比喻性的chemistries使用突显了兼容性和相互吸引在个人关系中的重要性。正如化学物质可以与彼此积极或消极反应一样，人们也可以创造出和谐或动荡的纽带。此外，科技的进步使我们能够更深入地探索chemistries。随着计算化学的兴起，科学家可以模拟化学反应并预测结果，而无需进行实际实验。这不仅节省了时间和资源，还为研究和发现开辟了新的途径。通过理解正在发挥作用的chemistries，研究人员可以设计更好的材料，开发创新药物，并为全球挑战创造可持续的解决方案。总之，chemistries的概念是多方面的，涵盖了科学和社会两个维度。无论是通过实验室中的化学反应，还是通过人际关系的动态，chemistries都塑造了我们对周围世界的理解。随着我们继续探索和揭示chemistries的复杂性，我们获得了宝贵的见解，这可以推动各个领域的进步，并增强我们的日常生活。因此，拥抱chemistries的研究不仅对科学家有益，也对每一个希望驾驭定义我们存在的复杂互动网络的人都有益。