vertical section

简明释义

垂直断面

英英释义

例句

1.The architect presented a detailed drawing of the building's vertical section 垂直剖面 to illustrate the layout of different floors.

建筑师展示了一幅建筑物的详细图纸，包括其vertical section 垂直剖面，以说明不同楼层的布局。

2.The teacher used a vertical section 垂直剖面 of a tree trunk to explain how trees grow over time.

老师使用树干的vertical section 垂直剖面来解释树木是如何随着时间生长的。

3.To create a more realistic model, the designer included a vertical section 垂直剖面 of the landscape in the presentation.

为了创建一个更真实的模型，设计师在演示中包含了景观的vertical section 垂直剖面。

4.The engineer analyzed the vertical section 垂直剖面 of the bridge to ensure its structural integrity.

工程师分析了桥梁的vertical section 垂直剖面以确保其结构完整性。

5.In geology, a vertical section 垂直剖面 of the earth layers helps scientists understand the composition and structure of the ground.

在地质学中，地球层的vertical section 垂直剖面有助于科学家理解土壤的组成和结构。

作文

In the field of geology, understanding the structure of the Earth is crucial for various applications, including resource exploration and environmental management. One essential tool for visualizing geological formations is the concept of a vertical section. A vertical section (垂直剖面) is a diagram or representation that illustrates the arrangement of different layers of rock, soil, or other materials beneath the Earth's surface. By examining a vertical section, geologists can gain insights into the history of an area, such as the processes that shaped it over millions of years.For instance, when conducting a geological survey, scientists often create a vertical section to analyze the stratigraphy of a region. This involves taking core samples from various depths and then plotting these samples on a vertical section diagram. The resulting image reveals the sequence of layers, which may include sedimentary rocks, igneous intrusions, or metamorphic formations. Each layer tells a story about the environmental conditions at the time of its formation, allowing researchers to reconstruct past climates and geological events.Moreover, vertical sections are not limited to geology; they are also used in architecture and engineering. In these fields, a vertical section (垂直剖面) provides a cut-through view of a building or structure, showing how different levels interact with one another. Architects use vertical sections to ensure that their designs are functional and aesthetically pleasing. For example, a well-detailed vertical section can help visualize the flow of natural light through a space or the relationship between different rooms in a house.In addition, urban planners utilize vertical sections to assess how new developments will fit within existing landscapes. By creating a vertical section, planners can visualize how tall buildings will affect sightlines and the overall skyline of a city. This is particularly important in densely populated areas where space is limited, and every decision can impact the community significantly.Furthermore, the educational value of vertical sections cannot be overlooked. Students in earth sciences and engineering often study vertical sections to understand complex concepts more easily. By analyzing these diagrams, students can better grasp the three-dimensional relationships between different elements in their field of study. This hands-on approach enhances learning and retention, making it easier for future professionals to apply their knowledge in practical settings.In conclusion, the concept of a vertical section (垂直剖面) plays a vital role across multiple disciplines, from geology to architecture and urban planning. It serves as a powerful visualization tool that helps professionals interpret data, design structures, and educate the next generation. Whether examining the Earth's layers or planning a new building, the ability to create and understand vertical sections is essential for success in these fields. As technology continues to advance, we can expect even more innovative ways to utilize vertical sections, further enhancing our understanding of the world around us.

在地质学领域，理解地球的结构对资源勘探和环境管理等各种应用至关重要。可视化地质构造的一个基本工具是“垂直剖面”的概念。“垂直剖面”是一个图示或表示，展示了地下不同岩石、土壤或其他材料层的排列。通过检查“垂直剖面”，地质学家可以深入了解一个地区的历史，例如塑造它数百万年的过程。例如，在进行地质调查时，科学家们常常创建一个“垂直剖面”来分析一个区域的地层学。这涉及到从不同深度取样，然后将这些样本绘制在“垂直剖面”图上。最终的图像揭示了层的顺序，其中可能包括沉积岩、火成岩侵入或变质岩层。每一层都讲述了其形成时环境条件的故事，从而使研究人员能够重建过去的气候和地质事件。此外，“垂直剖面”不仅限于地质学；它们在建筑和工程领域也被广泛使用。在这些领域中，“垂直剖面”提供了建筑物或结构的切面视图，展示了不同层次之间的互动。建筑师利用“垂直剖面”确保他们的设计既功能性又美观。例如，一个详细的“垂直剖面”可以帮助可视化自然光如何穿透空间，或房屋中不同房间之间的关系。此外，城市规划者利用“垂直剖面”来评估新开发项目如何融入现有的景观。通过创建“垂直剖面”，规划者可以可视化高楼将如何影响视线和城市的整体天际线。这在空间有限的高密度地区尤为重要，因为每一个决策都会对社区产生重大影响。此外，“垂直剖面”的教育价值也不容忽视。地球科学和工程专业的学生常常研究“垂直剖面”以更容易理解复杂的概念。通过分析这些图表，学生可以更好地掌握其研究领域中不同元素之间的三维关系。这种实践方法增强了学习和记忆，使未来的专业人士更容易在实际环境中应用他们的知识。总之，“垂直剖面”在多个学科中发挥着重要作用，从地质学到建筑和城市规划。它作为一个强大的可视化工具，帮助专业人士解读数据、设计结构和教育下一代。无论是检查地球的层次还是规划新建筑，创建和理解“垂直剖面”的能力在这些领域的成功中至关重要。随着技术的不断进步，我们可以期待更创新的方式来利用“垂直剖面”，进一步增强我们对周围世界的理解。