monoclinic system

简明释义

单斜系

英英释义

例句

1.In crystallography, the monoclinic system is one of the seven crystal systems used to classify crystals.

在晶体学中，单斜晶系是用于分类晶体的七种晶体系统之一。

2.The monoclinic system can be identified by its unique symmetry properties.

可以通过其独特的对称性特征识别出单斜晶系。

3.The mineral gypsum crystallizes in the monoclinic system, which is characterized by three unequal axes with one oblique angle.

矿物石膏在单斜晶系中结晶，其特征是三个不等的轴和一个斜角。

4.Materials such as orthoclase and jadeite are examples of minerals found in the monoclinic system.

正长石和翡翠等材料是发现于单斜晶系的矿物示例。

5.Scientists study the properties of materials that belong to the monoclinic system for their unique optical characteristics.

科学家研究属于单斜晶系的材料特性，以其独特的光学特性。

作文

The study of crystallography has always fascinated scientists and researchers alike. Among the various crystal systems, the monoclinic system stands out due to its unique properties and significance in materials science. The monoclinic system is characterized by three unequal axes, with one of them being inclined to the other two at an angle that is not a right angle. This distinct arrangement allows for a variety of crystal shapes and forms, making it an essential area of study in crystallography.One of the most interesting aspects of the monoclinic system is its occurrence in many naturally occurring minerals. For instance, minerals such as gypsum and orthoclase are classified within this system. Understanding the monoclinic system not only helps in identifying these minerals but also in exploring their physical and chemical properties. The unique symmetry and structure of monoclinic system crystals can lead to various applications in industries ranging from electronics to construction.In terms of symmetry, the monoclinic system features one plane of symmetry and one axis of rotation. This means that while some symmetry exists, it is less than that found in cubic or hexagonal systems. This asymmetry can result in interesting optical properties, which are crucial in fields like mineralogy and materials science. Researchers often utilize these properties to develop new materials with specific characteristics, such as enhanced strength or electrical conductivity.Furthermore, the classification of crystals into different systems, including the monoclinic system, is vital for the development of new technologies. For example, understanding how monoclinic system crystals interact with light can lead to advancements in optical devices, such as lasers and sensors. By manipulating the properties of these crystals, scientists can create more efficient and effective technologies.In conclusion, the monoclinic system plays a crucial role in the field of crystallography and materials science. Its unique structure and properties contribute to our understanding of various minerals and their applications. As research continues to advance, the significance of the monoclinic system will undoubtedly grow, leading to new discoveries and innovations in technology and materials. By studying this system, we not only deepen our knowledge of the natural world but also pave the way for future advancements in science and engineering.

晶体学的研究一直以来都吸引着科学家和研究人员。在各种晶体系统中，单斜晶系因其独特的性质和在材料科学中的重要性而脱颖而出。单斜晶系的特点是三个不等长的轴，其中一个轴与其他两个轴成非直角的倾斜。这种独特的排列允许形成多种晶体形状，使其成为晶体学研究的重要领域。单斜晶系最有趣的方面之一是它在许多自然矿物中出现。例如，矿物石膏和正长石被归类于此系统。理解单斜晶系不仅有助于识别这些矿物，还能探索它们的物理和化学性质。单斜晶系晶体的独特对称性和结构可以导致在从电子到建筑等行业的各种应用。就对称性而言，单斜晶系具有一个对称平面和一个旋转轴。这意味着虽然存在某种对称性，但它低于立方或六方系统的对称性。这种不对称性可能会导致有趣的光学性质，这对矿物学和材料科学等领域至关重要。研究人员常常利用这些性质开发具有特定特征的新材料，例如增强的强度或电导率。此外，将晶体分类为不同的系统，包括单斜晶系，对于新技术的发展至关重要。例如，理解单斜晶系晶体如何与光相互作用可以导致光学设备（如激光器和传感器）的进步。通过操纵这些晶体的性质，科学家可以创造出更高效、更有效的技术。总之，单斜晶系在晶体学和材料科学领域发挥着关键作用。它独特的结构和性质有助于我们理解各种矿物及其应用。随着研究的不断推进，单斜晶系的重要性无疑会增加，带来科技和材料领域的新发现和创新。通过研究这一系统，我们不仅加深了对自然世界的认识，还为未来科学和工程的进步铺平了道路。