mohr's salt

简明释义

莫尔盐

英英释义

Mohr's salt is a double salt composed of ferrous ammonium sulfate, typically represented by the formula (NH4)2Fe(SO4)2·6H2O. It is commonly used in analytical chemistry as a primary standard for determining the concentration of solutions.

莫尔盐是一种由硫酸铵铁组成的双盐,通常用化学式(NH4)2Fe(SO4)2·6H2O表示。它通常用于分析化学中,作为确定溶液浓度的主要标准。

例句

1.In the chemistry lab, we often use mohr's salt to demonstrate the principles of crystallization.

在化学实验室,我们经常使用莫尔盐来演示结晶原理。

2.Students learned how to prepare mohr's salt during their inorganic chemistry course.

学生们在无机化学课程中学习了如何制备莫尔盐

3.The preparation of mohr's salt involves the careful mixing of ammonium sulfate and iron(II) sulfate.

准备莫尔盐需要小心混合硫酸铵和硫酸亚铁。

4.When performing a titration, mohr's salt can act as a reliable source of iron ions.

在进行滴定时,莫尔盐可以作为可靠的铁离子来源。

5.The distinctive green color of mohr's salt makes it easy to identify in chemical reactions.

由于其独特的绿色,莫尔盐在化学反应中容易被识别。

作文

Mohr's salt, a fascinating compound in the world of chemistry, is scientifically known as ammonium iron(II) sulfate. This compound is not only essential in various chemical reactions but also serves as an excellent example of complex ion formation. Mohr's salt is often represented by the formula (NH4)2Fe(SO4)2·6H2O, indicating that it is a hydrated salt. The significance of mohr's salt lies in its unique properties and applications in different fields, including analytical chemistry and industrial processes.One of the most remarkable features of mohr's salt is its ability to act as a reducing agent. In many chemical reactions, it can donate electrons, thereby facilitating the transformation of other compounds. This property makes mohr's salt invaluable in redox reactions, where oxidation and reduction processes are crucial. For instance, in titrations, mohr's salt can be used to determine the concentration of oxidizing agents due to its predictable reaction patterns.Moreover, mohr's salt is particularly notable for its stability when exposed to air. Unlike many other iron salts, which may oxidize and change properties upon exposure, mohr's salt maintains its integrity. This stability allows chemists to store and use it over extended periods without significant degradation, making it a reliable choice for laboratory experiments.In addition to its role in chemical reactions, mohr's salt is also utilized in the field of agriculture. It serves as a source of iron and ammonium, both of which are essential nutrients for plant growth. Iron is crucial for chlorophyll production, while ammonium is a key nitrogen source. By incorporating mohr's salt into fertilizers, farmers can enhance soil quality and promote healthier crop yields.Furthermore, the synthesis of mohr's salt is an excellent demonstration of the principles of solubility and crystallization. When combining solutions of ammonium sulfate and iron(II) sulfate, mohr's salt precipitates out as beautiful, well-formed crystals. This process not only highlights the importance of stoichiometry in chemical reactions but also provides students and researchers with hands-on experience in crystallization techniques.In summary, mohr's salt is more than just a chemical compound; it represents a critical intersection of theory and application in chemistry. Its properties as a reducing agent, stability in storage, agricultural benefits, and role in educational demonstrations make it a multifaceted substance worthy of study. Understanding mohr's salt opens doors to a deeper appreciation of chemistry and its impact on both science and society. As we continue to explore the complexities of chemical compounds, mohr's salt stands out as a prime example of how a single substance can have diverse and significant implications across various domains.

莫尔盐,在化学世界中是一个迷人的化合物,科学上被称为硫酸铵铁(II)。这个化合物不仅在各种化学反应中至关重要,而且也是复杂离子形成的一个绝佳例子。莫尔盐通常用化学式(NH4)2Fe(SO4)2·6H2O表示,表明它是一种水合盐。莫尔盐的重要性在于它独特的性质和在不同领域的应用,包括分析化学和工业过程。莫尔盐最显著的特征之一是它作为还原剂的能力。在许多化学反应中,它可以捐赠电子,从而促进其他化合物的转化。这一特性使得莫尔盐在氧化还原反应中成为不可或缺的材料,其中氧化和还原过程至关重要。例如,在滴定中,莫尔盐可以用来确定氧化剂的浓度,因为它可预测的反应模式。此外,莫尔盐在暴露于空气时特别值得注意的是其稳定性。与许多其他铁盐不同,后者在暴露后可能会氧化并改变性质,莫尔盐保持其完整性。这种稳定性使化学家能够在较长时间内储存和使用它,而不会发生显著降解,从而使其成为实验室实验中的可靠选择。除了在化学反应中的作用外,莫尔盐还用于农业领域。它作为铁和铵的来源,这两者都是植物生长所必需的营养素。铁对叶绿素的生产至关重要,而铵则是关键的氮源。通过将莫尔盐纳入肥料中,农民可以改善土壤质量,促进更健康的作物产量。此外,莫尔盐的合成是溶解度和结晶原理的绝佳示范。当将硫酸铵和硫酸亚铁的溶液结合时,莫尔盐会以美丽、成型良好的晶体沉淀出来。这个过程不仅突出了化学反应中化学计量法的重要性,还为学生和研究人员提供了结晶技术的实践经验。总之,莫尔盐不仅仅是一个化学化合物;它代表了化学理论与应用之间的关键交汇点。作为还原剂的特性、储存中的稳定性、农业利益以及在教育演示中的角色,使其成为一个多面性的物质,值得研究。理解莫尔盐为我们打开了更深入欣赏化学及其对科学和社会影响的大门。随着我们继续探索化合物的复杂性,莫尔盐作为一个突出的例子,展示了单一物质如何在各个领域产生多样且重要的影响。