solubleness

简明释义

英[səˈluː.bəl.nəs]美[səˈluː.bəl.nəs]

n. 溶解度，可溶性

英英释义

单词用法

同义词

反义词

例句

1.The acephate granule can enwrap the effective component acephate in the middle of the granule, which can prevent effective component from decomposing with good solubleness and no flying-dust.

采用本发明的原料制成的乙酰甲胺磷粒剂能够将有效成分乙酰甲胺磷包裹在中间，既能够防止有效成分的分解又具有良好的溶解性能，而且没有粉尘飞扬。

2.The acephate granule can enwrap the effective component acephate in the middle of the granule, which can prevent effective component from decomposing with good solubleness and no flying-dust.

采用本发明的原料制成的乙酰甲胺磷粒剂能够将有效成分乙酰甲胺磷包裹在中间，既能够防止有效成分的分解又具有良好的溶解性能，而且没有粉尘飞扬。

3.The solubleness of carbon dioxide in water is crucial for the carbonation of soft drinks.

二氧化碳在水中的溶解性对软饮料的碳酸化至关重要。

4.The solubleness of sugar in hot beverages is why it dissolves more quickly than in cold ones.

糖在热饮中的溶解性是其比冷饮中更快溶解的原因。

5.Understanding the solubleness of minerals can help in the extraction processes in mining.

了解矿物的溶解性可以帮助矿业中的提取过程。

6.Scientists measure the solubleness of various compounds to determine their suitability for drug formulation.

科学家测量各种化合物的溶解性以确定其在药物配方中的适用性。

7.The solubleness of salt in water makes it a common choice for seasoning food.

盐在水中的溶解性使其成为调味食物的常见选择。

作文

The concept of solubleness is crucial in various scientific fields, particularly in chemistry and biology. Solubleness refers to the ability of a substance to dissolve in a solvent, typically water, forming a homogeneous solution. This property is not only fundamental to understanding chemical reactions but also plays a significant role in biological processes. For instance, when we consume food, the nutrients must be soluble in our digestive fluids to be absorbed by our bodies. Hence, the solubleness of vitamins and minerals determines their bioavailability and effectiveness in promoting health. In chemistry, the solubleness of a compound can influence the outcome of reactions. Soluble substances often participate more readily in reactions compared to insoluble ones. This is because soluble compounds break apart into ions or molecules that can interact with other reactants. Therefore, understanding the solubleness of different substances helps chemists predict how they will behave in various environments. For example, salt (sodium chloride) is highly soluble in water, which allows it to dissociate into sodium and chloride ions, essential for many physiological functions in living organisms.Moreover, the solubleness of a substance can be affected by several factors, including temperature, pressure, and the nature of the solvent. As temperature increases, many solids become more soluble in liquids; this principle is vital in industries such as pharmaceuticals, where solubility can dictate the effectiveness of a drug. In contrast, gases often become less soluble in liquids as temperature rises, which is why carbonated beverages lose their fizz when warmed up. Understanding these principles of solubleness is essential for scientists and engineers working in various fields.In environmental science, the solubleness of pollutants in water can have significant implications for ecosystems. For example, heavy metals can be soluble in water, leading to contamination of drinking water sources and harming aquatic life. The study of the solubleness of different contaminants helps researchers develop strategies to mitigate pollution and protect natural resources. By understanding how substances dissolve and interact with the environment, we can better address issues related to water quality and public health.Furthermore, the solubleness of substances is also a critical factor in the formulation of products like cosmetics and cleaning agents. Manufacturers must consider how well ingredients dissolve in solvents to ensure that their products are effective and safe for consumers. For example, a skincare product may contain active ingredients that need to be soluble to penetrate the skin effectively. Thus, the solubleness of these ingredients is a key consideration in product development.In conclusion, solubleness is a fundamental property that affects various aspects of science and daily life. It influences chemical reactions, biological processes, environmental health, and product formulation. A deeper understanding of solubleness can lead to advancements in multiple fields, from medicine to environmental science. As we continue to explore the complexities of matter and its interactions, the importance of solubleness will undoubtedly remain a central theme in scientific research and application.

“溶解性”这个概念在多个科学领域中至关重要，特别是在化学和生物学中。“溶解性”指的是一种物质在溶剂中（通常是水）溶解的能力，从而形成均匀的溶液。这一特性不仅是理解化学反应的基础，还在生物过程中发挥着重要作用。例如，当我们摄入食物时，营养物质必须在我们的消化液中具有溶解性，才能被我们的身体吸收。因此，维生素和矿物质的“溶解性”决定了它们的生物利用度和促进健康的有效性。在化学中，化合物的“溶解性”可以影响反应的结果。与不溶性物质相比，溶解物质通常更容易参与反应。这是因为可溶性化合物会分解成离子或分子，可以与其他反应物相互作用。因此，了解不同物质的“溶解性”有助于化学家预测它们在各种环境中的行为。例如，盐（氯化钠）在水中高度可溶，这使其能够解离成钠离子和氯离子，这对生物体的许多生理功能至关重要。此外，物质的“溶解性”还受到温度、压力和溶剂性质等多个因素的影响。随着温度的升高，许多固体在液体中的溶解度增加；这一原理在制药等行业中至关重要，因为溶解度可以决定药物的有效性。相反，气体在液体中的溶解度通常随着温度的升高而降低，这就是为什么碳酸饮料在变热时会失去气泡。理解这些“溶解性”的原理对于各个领域的科学家和工程师至关重要。在环境科学中，污染物在水中的“溶解性”可能对生态系统产生重大影响。例如，重金属可能在水中溶解，导致饮用水源的污染并危害水生生物。研究不同污染物的“溶解性”有助于研究人员制定减轻污染和保护自然资源的策略。通过了解物质如何溶解并与环境相互作用，我们可以更好地解决与水质和公共卫生相关的问题。此外，物质的“溶解性”也是化妆品和清洁剂等产品配方中的关键因素。制造商必须考虑成分在溶剂中溶解的程度，以确保其产品对消费者有效且安全。例如，护肤产品可能含有需要溶解以有效渗透皮肤的活性成分。因此，这些成分的“溶解性”是产品开发中的关键考虑因素。总之，“溶解性”是影响科学和日常生活多个方面的基本特性。它影响化学反应、生物过程、环境健康和产品配方。深入理解“溶解性”可以推动医学、环境科学等多个领域的进步。随着我们继续探索物质及其相互作用的复杂性，“溶解性”的重要性无疑将继续成为科学研究和应用的核心主题。