vertical section

简明释义

纵截面

英英释义

例句

1.The software allows users to view a vertical section 垂直剖面 of the terrain in 3D.

该软件允许用户以3D形式查看地形的垂直剖面.

2.To better understand the plant's anatomy, we examined a vertical section 垂直剖面 of its stem.

为了更好地理解植物的解剖结构，我们检查了其茎的垂直剖面.

3.In geology class, we learned how to create a vertical section 垂直剖面 of the Earth's layers.

在地质课上，我们学习了如何绘制地球层的垂直剖面.

4.The engineer used a vertical section 垂直剖面 to analyze the internal structure of the bridge.

工程师使用垂直剖面来分析桥梁的内部结构.

5.The architect presented a detailed drawing of the building's vertical section 垂直剖面 to show how the different floors are arranged.

建筑师展示了建筑物的详细图纸，包含了各层如何排列的垂直剖面.

作文

In the field of architecture and engineering, understanding the different types of sections is crucial for effective design and communication. One such important type is the vertical section, which provides a side view of a structure, illustrating its height and internal layout. A vertical section is essentially a cut through a building or object that reveals its internal components and spatial relationships. This representation is vital for architects as it allows them to visualize how spaces interact with one another on different levels. For instance, when designing a multi-story building, architects often use a vertical section to depict the arrangement of floors, staircases, and other critical elements like windows and doors. By examining a vertical section, one can easily identify how light enters the building, how air circulates, and how people will navigate through the space. This insight is not only beneficial for the design team but also for clients who may not have a technical background. Furthermore, a vertical section plays a significant role in the construction phase. Contractors rely on these drawings to understand the specifications of the project accurately. They need to know the heights of ceilings, the thickness of walls, and the placement of plumbing and electrical systems. A well-detailed vertical section ensures that all parties involved are on the same page, reducing the chances of costly mistakes during construction. In addition to architecture, the concept of a vertical section is applied in various fields such as geology and biology. In geology, a vertical section might illustrate the layers of soil and rock beneath the earth's surface, providing valuable information about the geological history of an area. Biologists might use a vertical section of a plant to show its anatomical features, helping students and researchers understand how different parts function together. Moreover, the visual nature of a vertical section aids in education and communication. Students learning about anatomy can benefit from viewing vertical sections of the human body, which help them grasp complex relationships between organs and systems. Similarly, in environmental studies, vertical sections of ecosystems can illustrate how different layers of vegetation support various forms of wildlife. In conclusion, the vertical section is a powerful tool across multiple disciplines, providing clarity and insight into the structure and function of various systems. Whether in architecture, geology, or biology, the ability to interpret and create vertical sections enhances our understanding of the world around us. As we continue to advance in technology and design, the importance of vertical sections will undoubtedly grow, making them an essential skill for future professionals in any field. Understanding the significance of a vertical section can lead to better designs, more efficient construction, and a deeper comprehension of complex systems.

在建筑和工程领域，理解不同类型的剖面对于有效的设计和沟通至关重要。其中一个重要的类型是垂直剖面，它提供了一个结构的侧视图，展示了其高度和内部布局。垂直剖面本质上是对建筑物或物体的切割，揭示了其内部组件和空间关系。这种表现形式对于建筑师来说至关重要，因为它使他们能够可视化不同层次之间空间的相互作用。例如，在设计多层建筑时，建筑师常常使用垂直剖面来描绘楼层、楼梯以及其他关键元素如窗户和门的排列。通过检查垂直剖面，人们可以轻松识别光线如何进入建筑物，空气如何循环，以及人们将如何在空间中导航。这种洞察不仅对设计团队有利，也对可能没有技术背景的客户有帮助。此外，垂直剖面在施工阶段也发挥着重要作用。承包商依赖这些图纸来准确理解项目的规格。他们需要知道天花板的高度、墙壁的厚度以及管道和电气系统的布置。详尽的垂直剖面确保所有参与方都在同一页上，从而减少在施工过程中发生昂贵错误的机会。除了建筑学，垂直剖面的概念也应用于地质学和生物学等多个领域。在地质学中，垂直剖面可能展示地下土壤和岩石的层次，为某个地区的地质历史提供宝贵信息。生物学家可能会使用植物的垂直剖面来展示其解剖特征，帮助学生和研究人员理解不同部分如何协同工作。此外，垂直剖面的视觉特性有助于教育和沟通。学习解剖学的学生可以通过查看人体的垂直剖面受益，这帮助他们掌握器官和系统之间复杂的关系。同样，在环境研究中，生态系统的垂直剖面可以说明不同植被层如何支持各种野生动物。总之，垂直剖面是多个学科中的一种强大工具，提供了对各种系统结构和功能的清晰见解。无论是在建筑、地质还是生物学中，理解和创建垂直剖面的能力增强了我们对周围世界的理解。随着技术和设计的不断进步，垂直剖面的重要性无疑将会增加，使其成为未来各个领域专业人士的一项基本技能。理解垂直剖面的重要性可以带来更好的设计、更高效的施工以及对复杂系统的更深入理解。