geometry of structure

简明释义

构造物的几何图式

英英释义

例句

1.Understanding the geometry of structure is crucial for engineers when designing bridges.

理解结构的几何形状对工程师在设计桥梁时至关重要。

2.In our recent project, we focused on the geometry of structure to enhance stability and support.

在我们最近的项目中，我们专注于结构的几何形状以增强稳定性和支撑。

3.The artist's installation cleverly manipulated the geometry of structure to create optical illusions.

艺术家的装置巧妙地操控了结构的几何形状以创造视觉错觉。

4.The architect emphasized the importance of the geometry of structure in creating an aesthetically pleasing building.

建筑师强调了结构的几何形状在创造美观建筑中的重要性。

5.The geometry of structure can greatly affect how a building responds to seismic activity.

结构的几何形状会极大影响建筑物对地震活动的反应。

作文

The concept of geometry of structure is fundamental in various fields, including architecture, engineering, and even biology. It refers to the spatial arrangement and relationships of different components within a system or an object. Understanding the geometry of structure is essential for creating stable and functional designs. For instance, in architecture, the geometry of structure dictates how forces are distributed across different parts of a building. A well-designed structure must consider not only aesthetic appeal but also the physical laws that govern stability and strength.In engineering, the geometry of structure plays a crucial role in the design of bridges, towers, and other infrastructures. Engineers must analyze the geometric shapes and materials used to ensure that the structures can withstand environmental forces such as wind, earthquakes, and loads. The principles of the geometry of structure help engineers optimize their designs, making them safer and more efficient.Biologists also study the geometry of structure in living organisms. The arrangement of cells, tissues, and organs can significantly affect an organism's functionality and adaptability. For example, the geometry of structure in the wings of birds is designed for aerodynamics, allowing them to fly efficiently. Similarly, the skeletal structure of animals is influenced by the need for mobility and support, showcasing how the geometry of structure is integral to survival.Moreover, the geometry of structure extends beyond physical forms; it encompasses abstract concepts in mathematics and physics. In mathematics, geometric principles help describe shapes and spaces, while in physics, they are essential for understanding the forces that act upon objects. The interplay between the geometry of structure and these disciplines reveals the interconnectedness of knowledge across different fields.In conclusion, the geometry of structure is a multifaceted concept that bridges various domains of study. Its significance cannot be overstated, as it influences the design and functionality of both man-made and natural systems. By mastering the geometry of structure, professionals from diverse fields can create innovative solutions that enhance our understanding of the world and improve our quality of life.

“结构的几何”这一概念在建筑、工程甚至生物学等多个领域中都是基础。它指的是系统或物体内部不同组件的空间排列和关系。理解“结构的几何”对于创造稳定和功能性设计至关重要。例如，在建筑学中，“结构的几何”决定了力量如何在建筑的不同部分之间分配。一个设计良好的结构不仅必须考虑美学吸引力，还必须考虑支配稳定性和强度的物理法则。在工程中，“结构的几何”在桥梁、塔楼和其他基础设施的设计中起着关键作用。工程师必须分析所使用的几何形状和材料，以确保结构能够承受风、地震和负载等环境力量。“结构的几何”的原则帮助工程师优化他们的设计，使其更安全、更高效。生物学家也研究活生物体中的“结构的几何”。细胞、组织和器官的排列会显著影响生物体的功能性和适应性。例如，鸟类翅膀的“结构的几何”设计用于空气动力学，使它们能够高效飞行。同样，动物的骨骼结构受到移动性和支撑需求的影响，展示了“结构的几何”对生存的重要性。此外，“结构的几何”超越了物理形式，它还包括数学和物理学中的抽象概念。在数学中，几何原理有助于描述形状和空间，而在物理学中，它们对于理解作用于物体的力量至关重要。“结构的几何”与这些学科之间的相互作用揭示了不同领域知识的相互联系。总之，“结构的几何”是一个多方面的概念，连接了各种研究领域。它的重要性不容小觑，因为它影响着人造和自然系统的设计和功能。通过掌握“结构的几何”，来自不同领域的专业人士可以创造出创新的解决方案，从而增强我们对世界的理解，提高我们的生活质量。