saturability
简明释义
英[sætʃərəˈbɪlɪti]美[sætʃərəˈbɪlɪtɪ]
n. 饱和度,饱和能力
英英释义
The capacity of a substance to be saturated, meaning it can absorb or hold a maximum amount of another substance without becoming ineffective. | 一种物质被饱和的能力,意味着它可以吸收或保持另一种物质的最大量而不失效。 |
单词用法
高饱和性 | |
低饱和性 | |
饱和性极限 | |
材料的饱和性 | |
饱和性指数 | |
饱和性测试 |
同义词
| 饱和度 | 溶液的饱和点已达到。 | ||
| 容量 | 容器的容量是有限的。 | ||
| 吸收能力 | 材料的吸收率进行了测试。 | ||
| 极限 | 土壤能容纳的水量是有限的。 |
反义词
例句
1.The effect of the base saturability, the dosage and the temperature of coagulation of PAC on the grey water of paper industry has been studied.
研究了聚合氯化铝的盐基度、用量及混凝温度对造纸中段水处理效果的影响。
2.The effect of the base saturability, the dosage and the temperature of coagulation of PAC on the grey water of paper industry has been studied.
研究了聚合氯化铝的盐基度、用量及混凝温度对造纸中段水处理效果的影响。
3.Active transport: This process is characterized by selectivity and saturability and requires energy expenditure by the cell.
主动转运这种转运过程的特征是选择性和饱和性,需要细胞的能量消耗。
4.In the context of marketing, understanding consumer saturability can help businesses avoid oversaturation.
在营销背景下,理解消费者的饱和度可以帮助企业避免过度饱和。
5.The saturability of the dye in water affects how vibrant the final color will be.
染料在水中的饱和度影响最终颜色的鲜艳程度。
6.The saturability of a solution can change with temperature and pressure.
溶液的饱和度可能会随着温度和压力的变化而变化。
7.Researchers are studying the saturability of nutrients in soil to improve crop yields.
研究人员正在研究土壤中营养物质的饱和度以提高作物产量。
8.The saturability of a magnetic material determines its efficiency in various applications.
磁性材料的饱和度决定了其在各种应用中的效率。
作文
The concept of saturability (饱和度) is fundamental in various fields, including chemistry, physics, and even economics. It refers to the capacity of a system or substance to reach a state where it can no longer absorb or take in more of a particular element or compound. Understanding saturability is essential for scientists and professionals as it impacts the behavior of materials and systems under different conditions.In chemistry, for instance, the saturability of a solution is critical when determining how much solute can be dissolved in a solvent at a given temperature. A saturated solution is one where additional solute will not dissolve, indicating that the solvent has reached its maximum capacity. This principle is crucial for various applications, such as pharmaceuticals, where the correct dosage depends on the saturability of the compounds involved. If a drug exceeds its saturability, it can lead to ineffective treatment or adverse effects due to precipitation.Similarly, in the field of physics, the saturability of magnetic materials is an important characteristic. When a magnetic material is subjected to an external magnetic field, it becomes magnetized. However, there is a limit to how much magnetization a material can achieve, known as its saturability. Beyond this point, increasing the external magnetic field will not enhance the magnetization further. This property is vital in designing electrical devices, transformers, and magnets, as it helps engineers understand how materials will behave under different operational conditions.Economically, the concept of saturability also plays a significant role. Markets can become saturated when the supply of goods or services meets or exceeds consumer demand. In such cases, businesses must innovate or diversify their offerings to stimulate growth. For example, the smartphone market has experienced saturability in many regions, leading companies to explore new technologies, such as foldable screens or augmented reality features, to attract consumers and maintain market share.The implications of saturability extend beyond just scientific or economic contexts; they also influence environmental considerations. For instance, understanding the saturability of soil in relation to water absorption is crucial in agriculture and environmental management. Over-saturation can lead to runoff, erosion, and nutrient loss, while under-saturation may result in drought conditions. Thus, farmers and environmentalists must monitor soil saturability to optimize crop yields and preserve ecosystems.In conclusion, saturability (饱和度) is a multifaceted concept that spans across various disciplines. Its significance cannot be overstated, as it influences everything from chemical reactions and material properties to market dynamics and environmental health. By grasping the principles of saturability, individuals can make informed decisions in their respective fields, leading to advancements in technology, improved health outcomes, and sustainable practices. As we continue to explore and innovate, the understanding of saturability will remain a critical component of our scientific and economic endeavors.
“饱和度”这一概念在化学、物理甚至经济等多个领域中都是基础性的。它指的是一个系统或物质达到一种状态的能力,在这种状态下,它无法再吸收或容纳更多特定元素或化合物。理解“饱和度”对科学家和专业人士至关重要,因为它影响材料和系统在不同条件下的行为。例如,在化学中,溶液的“饱和度”在确定在给定温度下可以溶解多少溶质时至关重要。饱和溶液是指额外的溶质不会再溶解,表明溶剂已达到其最大容量。这一原理对各种应用至关重要,例如制药行业,其中正确的剂量取决于所涉及化合物的“饱和度”。如果药物超过其“饱和度”,可能导致治疗无效或由于沉淀而产生不良反应。同样,在物理学领域,磁性材料的“饱和度”也是一个重要特性。当磁性材料受到外部磁场作用时,它会被磁化。然而,材料能够达到的磁化程度是有限的,这被称为其“饱和度”。超出这一点,增加外部磁场将不会进一步增强磁化。这一特性在设计电气设备、变压器和磁铁时至关重要,因为它帮助工程师理解材料在不同操作条件下的行为。在经济学上,“饱和度”这一概念也发挥着重要作用。当商品或服务的供应满足或超过消费者需求时,市场可能会变得饱和。在这种情况下,企业必须创新或多样化其产品以刺激增长。例如,智能手机市场在许多地区经历了“饱和度”,这促使公司探索新技术,如可折叠屏幕或增强现实功能,以吸引消费者并维持市场份额。“饱和度”的影响不仅限于科学或经济背景;它们还影响环境考虑。例如,了解土壤与水吸收之间的“饱和度”在农业和环境管理中至关重要。过度饱和可能导致径流、侵蚀和养分流失,而不足饱和则可能导致干旱。因此,农民和环保主义者必须监测土壤的“饱和度”,以优化作物产量和保护生态系统。总之,“饱和度”是一个跨越多个学科的多面概念。它的重要性不容小觑,因为它影响从化学反应和材料属性到市场动态和环境健康的方方面面。通过掌握“饱和度”的原则,个人可以在各自的领域做出明智的决策,从而推动技术进步、改善健康结果和可持续实践。随着我们继续探索和创新,对“饱和度”的理解将始终是我们科学和经济努力的重要组成部分。
