centrosymmetric class

简明释义

中心对称组;

英英释义

例句

1.The centrosymmetric class 中心对称类 can be identified by its symmetry operations that include inversion.

可以通过包含反演的对称操作来识别中心对称类 centrosymmetric class。

2.In the study of molecular vibrations, compounds in the centrosymmetric class 中心对称类 exhibit unique spectral features.

在分子振动研究中，位于中心对称类 centrosymmetric class的化合物表现出独特的光谱特征。

3.Many common crystals, such as quartz, belong to the centrosymmetric class 中心对称类, which affects their piezoelectric properties.

许多常见的晶体，如石英，属于中心对称类 centrosymmetric class，这影响了它们的压电特性。

4.The analysis of electronic band structure often considers the centrosymmetric class 中心对称类 to predict conductivity.

电子能带结构的分析通常考虑中心对称类 centrosymmetric class以预测导电性。

5.In crystallography, the properties of materials in the centrosymmetric class 中心对称类 are crucial for understanding their optical behavior.

在晶体学中，材料在中心对称类 centrosymmetric class中的性质对于理解其光学行为至关重要。

作文

In the realm of mathematics and physics, symmetry plays a crucial role in understanding the properties of various systems. One fascinating concept that arises in this context is the centrosymmetric class. This term refers to a classification of objects or structures that exhibit a specific type of symmetry known as centrosymmetry. To comprehend what this entails, we must first delve into the nature of symmetry itself. Symmetry can be described as a property where an object remains invariant under certain transformations, such as rotation, reflection, or translation. In the case of centrosymmetric class, the symmetry is characterized by the presence of a center point, around which the object is symmetric. This means that for every point in the object, there exists another point at an equal distance on the opposite side of the center. Understanding centrosymmetric class is essential in various fields, including crystallography, materials science, and even biology. For instance, in crystallography, many crystal structures belong to the centrosymmetric class, which significantly influences their physical properties. The centrosymmetric nature of these crystals affects how they interact with light, heat, and other forms of energy. This has practical implications in the design of optical devices, semiconductors, and other advanced materials. Moreover, the concept of centrosymmetric class extends beyond mere geometric considerations. It also has implications in the study of physical phenomena, such as phase transitions and material behavior under stress. When materials undergo deformation, their response can often be predicted based on their symmetry properties. Those that belong to the centrosymmetric class tend to exhibit specific behaviors that can be advantageous in engineering applications. Furthermore, the exploration of centrosymmetric class can lead to a deeper understanding of biological systems. Many organisms exhibit forms of symmetry that can be categorized within this class, influencing their development and functionality. For example, the bilateral symmetry found in many animals can be viewed as a special case of centrosymmetry, where the organism can be divided into two mirror-image halves. This symmetry is not only aesthetically pleasing but also serves functional purposes, such as facilitating movement and sensory perception. In conclusion, the centrosymmetric class represents a significant concept in understanding symmetry across various disciplines. Its implications stretch from the microscopic world of crystals to the macroscopic realm of biological organisms. By exploring this concept, we gain insights into the fundamental principles that govern the structure and behavior of materials and living beings alike. As we continue to investigate the mysteries of symmetry, the centrosymmetric class will undoubtedly remain a key area of interest for researchers and scientists seeking to unlock the secrets of the universe.

在数学和物理学领域，对称性在理解各种系统的属性中起着至关重要的作用。一个引人入胜的概念是中心对称类。这个术语指的是一类表现出特定类型对称性的物体或结构，这种对称性被称为中心对称性。要理解这意味着什么，我们必须首先深入了解对称性的本质。对称性可以被描述为一种属性，在这种属性下，物体在某些变换（如旋转、反射或平移）下保持不变。在中心对称类的情况下，对称性是由一个中心点的存在所特征化的，围绕这个中心点，物体是对称的。这意味着对于物体中的每一个点，存在另一个点在中心的对面相同距离的位置。理解中心对称类在多个领域中至关重要，包括晶体学、材料科学甚至生物学。例如，在晶体学中，许多晶体结构属于中心对称类，这显著影响了它们的物理性质。这些晶体的中心对称性质影响它们与光、热和其他形式能量的相互作用。这对光学设备、半导体和其他先进材料的设计具有实际意义。此外，中心对称类的概念超越了单纯的几何考虑。它还对研究物理现象（如相变和材料在应力下的行为）有影响。当材料经历变形时，其反应往往可以根据其对称性属性进行预测。那些属于中心对称类的材料通常表现出特定的行为，这在工程应用中可能是有利的。此外，探索中心对称类可以加深我们对生物系统的理解。许多生物体表现出可以归类于这一类的对称形式，影响它们的发展和功能。例如，许多动物的双侧对称性可以视为中心对称性的一个特例，其中生物体可以被分为两个镜像对称的部分。这种对称性不仅在美学上令人愉悦，而且还服务于功能目的，例如促进运动和感知。总之，中心对称类代表了在各个学科中理解对称性的重要概念。它的影响从微观的晶体世界延伸到宏观的生物有机体领域。通过探索这一概念，我们获得了对支配材料和生物体结构与行为的基本原理的见解。随着我们继续探索对称性的奥秘，中心对称类无疑将成为研究人员和科学家寻求解开宇宙秘密的关键领域。