cross sectional view

简明释义

横断面视图

英英释义

例句

1.In the medical imaging report, the cross sectional view 横截面图 helps doctors identify tumors more accurately.

在医学影像报告中，cross sectional view 横截面图 帮助医生更准确地识别肿瘤。

2.During the presentation, she used a cross sectional view 横截面图 of the pipeline to illustrate the flow of materials.

在演示中，她使用了管道的cross sectional view 横截面图来说明材料的流动。

3.The geology textbook includes a cross sectional view 横截面图 of the Earth's layers to explain its structure.

地质学教科书包含了地球层的cross sectional view 横截面图，以解释其结构。

4.The architect presented a cross sectional view 横截面图 of the building to show how the different floors are arranged.

建筑师展示了建筑的cross sectional view 横截面图，以显示不同楼层的布局。

5.The engineering team created a cross sectional view 横截面图 of the bridge to analyze its load distribution.

工程团队创建了桥的cross sectional view 横截面图以分析其荷载分布。

作文

In the field of science and engineering, understanding complex structures often requires a clear visualization of their components. One effective way to achieve this is through the use of a cross sectional view (横截面图). A cross sectional view provides a glimpse into the internal features of an object by cutting through it, much like slicing a loaf of bread to see its interior. This technique is widely used in various disciplines such as architecture, biology, and mechanical engineering.For instance, in architecture, when designing a building, architects often create cross sectional views to demonstrate how different floors and spaces relate to one another. These views help clients visualize the layout and flow of the building, allowing them to understand how light and air will move through the spaces. By examining a cross sectional view, stakeholders can better appreciate the design's functionality and aesthetic appeal.Similarly, in biology, a cross sectional view is crucial for studying the anatomy of organisms. For example, when examining a plant stem, scientists might take a cross sectional view to observe the arrangement of vascular tissues, which are essential for the transport of nutrients and water. This method allows researchers to identify specific structures and their relationships within the plant, leading to a deeper understanding of its biological functions.In mechanical engineering, cross sectional views are vital for analyzing the components of machines or vehicles. Engineers may create these views to illustrate how parts fit together and operate. For example, a cross sectional view of an engine can reveal the arrangement of pistons, valves, and other critical components, helping engineers to diagnose issues or improve designs. By providing detailed insights into the internal workings of machinery, cross sectional views facilitate innovation and efficiency in engineering practices.Moreover, cross sectional views are also important in medical imaging. Techniques such as MRI and CT scans produce cross sectional views of the human body, allowing doctors to diagnose conditions with greater accuracy. These images enable healthcare professionals to see inside the body without invasive procedures, making it easier to identify issues such as tumors or fractures. The ability to analyze a patient's internal structures through cross sectional views has revolutionized modern medicine, improving patient outcomes significantly.In conclusion, the concept of a cross sectional view (横截面图) is a powerful tool across various fields, providing essential insights into the internal structures of objects, organisms, and systems. Whether in architecture, biology, engineering, or medicine, cross sectional views enhance our understanding and facilitate communication among professionals. By employing this visualization technique, we can break down complex information into manageable parts, leading to better designs, improved diagnostics, and innovative solutions. As we continue to explore and utilize cross sectional views, we open up new possibilities for discovery and advancement in multiple disciplines.

在科学和工程领域，有效理解复杂结构通常需要清晰的可视化其组成部分。一种有效的方法是使用横截面图。横截面图通过切割物体，提供其内部特征的窥视，就像切一片面包以查看其内部。这种技术在建筑、生物学和机械工程等多个学科中被广泛应用。例如，在建筑设计中，建筑师常常创建横截面图来展示不同楼层和空间之间的关系。这些视图帮助客户可视化建筑的布局和流动，使他们理解光线和空气如何在空间中移动。通过检查横截面图，利益相关者可以更好地欣赏设计的功能性和美学吸引力。同样，在生物学中，横截面图对于研究生物体的解剖学至关重要。例如，在检查植物茎时，科学家可能会采用横截面图来观察维管组织的排列，这对于营养和水分的运输至关重要。这种方法使研究人员能够识别特定结构及其在植物中的关系，从而深入理解其生物功能。在机械工程中，横截面图对于分析机器或车辆的组件至关重要。工程师可能会创建这些视图来说明零件如何组合和运作。例如，发动机的横截面图可以揭示活塞、阀门和其他关键组件的排列，帮助工程师诊断问题或改进设计。通过提供对机械内部工作原理的详细洞察，横截面图促进了工程实践中的创新和效率。此外，横截面图在医学成像中也很重要。MRI和CT扫描等技术产生人体的横截面图，使医生能够更准确地诊断病情。这些图像使医疗专业人员能够在不进行侵入性程序的情况下查看身体内部，从而更容易识别肿瘤或骨折等问题。通过分析患者的内部结构，横截面图彻底改变了现代医学，显著改善了患者的结果。总之，横截面图（横截面图）这一概念是各个领域的一种强大工具，提供了对物体、组织和系统内部结构的基本见解。无论是在建筑、生物学、工程还是医学中，横截面图增强了我们的理解并促进了专业人士之间的沟通。通过采用这种可视化技术，我们可以将复杂信息分解为可管理的部分，从而带来更好的设计、改进的诊断和创新的解决方案。随着我们继续探索和利用横截面图，我们为多个学科的发现和进步打开了新的可能性。