fulminic

简明释义

英[fʌlˈmɪnɪk]美[fʌlˈmɪnɪk]

adj. 爆发性的

英英释义

单词用法

同义词

反义词

例句

1.To seek new represent technique, new materials, and new associated system, to design a fulminic work is the certain choose of the best designer.

追求新的表现手法、新的工艺技术。新的材料、新的关联体系，设计具有爆发力的作品，是优秀设计师的必然选择。

2.To seek new represent technique, new materials, and new associated system, to design a fulminic work is the certain choose of the best designer.

追求新的表现手法、新的工艺技术。新的材料、新的关联体系，设计具有爆发力的作品，是优秀设计师的必然选择。

3.Fulminic acid can be regarded as the simplest oxime.

雷酸可以看作是最简单的肟。

4.The chemist explained the properties of fulminic 富尔敏酸的 acid in relation to explosive reactions.

化学家解释了fulminic 富尔敏酸的 酸在爆炸反应中的性质。

5.In the laboratory, we synthesized a compound that included fulminic 富尔敏酸的 derivatives.

在实验室中，我们合成了一种包含fulminic 富尔敏酸的 衍生物的化合物。

6.The reaction between mercury and fulminic 富尔敏酸的 acid was highly exothermic.

汞与fulminic 富尔敏酸的 酸之间的反应是高度放热的。

7.Understanding fulminic 富尔敏酸的 compounds is crucial for developing new explosives.

理解fulminic 富尔敏酸的 化合物对于开发新型炸药至关重要。

8.The stability of fulminic 富尔敏酸的 salts can vary significantly depending on environmental conditions.

根据环境条件，fulminic 富尔敏酸的 盐的稳定性可能会显著变化。

作文

In the realm of chemistry, various compounds exhibit unique properties that can lead to fascinating reactions. One such compound is fulminic acid, known for its explosive characteristics and intriguing structure. Understanding fulminic acid not only enhances our grasp of organic chemistry but also sheds light on the broader implications of chemical reactions in both industrial and natural contexts. Fulminic acid, with the formula C2HN2O2, is an unstable compound that can decompose explosively under certain conditions. This instability is largely due to the presence of the fulminate group, which is known for its sensitivity to heat and shock. The discovery of fulminic acid dates back to the early 19th century when chemists were exploring the properties of nitrogen-containing compounds. It was first synthesized by the renowned chemist Edward Charles Howard, who recognized its potential as a detonating agent. The significance of fulminic acid extends beyond its explosive nature. In the field of explosives, fulminic acid derivatives, such as mercury fulminate, played a crucial role in the development of detonators. Mercury fulminate was widely used in firearms and blasting applications, revolutionizing the way explosives were utilized in construction and warfare. The ability of fulminic acid to rapidly release energy makes it a valuable compound in situations where controlled explosions are necessary. Moreover, the study of fulminic acid has implications for understanding molecular stability and reactivity. Chemists have long been interested in the factors that contribute to the stability of different compounds. By examining the structure of fulminic acid, researchers can gain insights into the bond energies and molecular interactions that dictate whether a compound will be stable or prone to decomposition. This knowledge is essential for the design of safer and more effective explosives, as well as for the development of new materials in various industries. In addition to its practical applications, fulminic acid serves as a reminder of the delicate balance between stability and reactivity in chemistry. Many compounds that are seemingly harmless can become dangerous under specific conditions. The volatility of fulminic acid highlights the importance of handling such substances with care and respect. Laboratory safety protocols must always be observed when working with reactive compounds to prevent accidents and ensure the safety of all personnel involved. As we delve deeper into the world of chemistry, the study of compounds like fulminic acid encourages us to appreciate the complexity and beauty of molecular interactions. Each molecule tells a story of its own, revealing the intricate dance of atoms and bonds that govern its behavior. By continuing to explore these compounds, we not only expand our scientific knowledge but also enhance our ability to innovate and solve real-world problems. In conclusion, fulminic acid is a prime example of how a single compound can embody both danger and utility. Its explosive properties have made it a valuable tool in various applications, while its instability serves as a cautionary tale for chemists. As we advance in our understanding of chemistry, let us remain mindful of the lessons that fulminic acid teaches us about the nature of chemical reactivity and the responsibilities that come with wielding such power.

在化学领域，各种化合物展现出独特的性质，可能导致迷人的反应。其中一种化合物是氟胺酸，以其爆炸特性和引人入胜的结构而闻名。理解氟胺酸不仅增强了我们对有机化学的掌握，还阐明了化学反应在工业和自然背景下的更广泛影响。 氟胺酸，化学式为C2HN2O2，是一种不稳定的化合物，在某些条件下会发生爆炸性分解。这种不稳定性主要由于氟胺基团的存在，该基团以对热和冲击的敏感性而闻名。氟胺酸的发现可以追溯到19世纪初，当时化学家们正在探索含氮化合物的性质。它是由著名化学家爱德华·查尔斯·霍华德首次合成的，他认识到它作为引爆剂的潜力。 氟胺酸的重要性超出了其爆炸性本质。在炸药领域，氟胺酸衍生物，如氟胺汞，在引发器的发展中发挥了关键作用。氟胺汞广泛用于火器和爆破应用，彻底改变了炸药在建筑和战争中的使用方式。氟胺酸迅速释放能量的能力使其在需要控制爆炸的情况下成为一种有价值的化合物。 此外，氟胺酸的研究对理解分子稳定性和反应性具有重要意义。化学家们长期以来一直对影响不同化合物稳定性的因素感兴趣。通过检查氟胺酸的结构，研究人员可以深入了解决定化合物是稳定还是容易分解的键能和分子相互作用。这一知识对设计更安全、更有效的炸药至关重要，同时也有助于开发各个行业的新材料。 除了其实际应用外，氟胺酸还提醒我们化学中稳定性与反应性之间的微妙平衡。许多看似无害的化合物在特定条件下可能变得危险。氟胺酸的挥发性突显了在处理此类物质时必须小心和尊重的重要性。在与反应性化合物合作时，必须始终遵循实验室安全协议，以防止事故并确保所有参与人员的安全。 随着我们深入化学世界，对像氟胺酸这样的化合物的研究鼓励我们欣赏分子相互作用的复杂性和美丽。每个分子都有自己的故事，揭示了原子和键的复杂舞蹈，决定了其行为。通过继续探索这些化合物，我们不仅扩展了科学知识，还增强了我们创新和解决现实问题的能力。 总之，氟胺酸是一个典型的例子，说明单一化合物如何同时蕴含危险和实用性。其爆炸特性使其在各种应用中成为一种有价值的工具，而其不稳定性则为化学家提供了警示。随着我们对化学理解的深入，让我们时刻铭记氟胺酸教给我们的关于化学反应性本质以及掌握这种力量所需的责任的教训。