boundary angle

简明释义

界边角钢

英英释义

例句

1.The surveyor used advanced tools to measure the boundary angle 边界角 of the property lines.

测量员使用先进工具测量了财产界线的边界角 boundary angle。

2.Understanding the boundary angle 边界角 is crucial for civil engineers when designing road intersections.

理解边界角 boundary angle对于土木工程师在设计道路交叉口时至关重要。

3.The architect calculated the boundary angle 边界角 to ensure the building fit perfectly on the lot.

建筑师计算了边界角 boundary angle以确保建筑完美地适合地块。

4.To create a seamless design, the designer paid close attention to the boundary angle 边界角 between the two walls.

为了创造一个无缝的设计，设计师密切关注两面墙之间的边界角 boundary angle。

5.In landscaping, adjusting the boundary angle 边界角 can dramatically change the visual impact of the garden.

在景观设计中，调整边界角 boundary angle可以显著改变花园的视觉效果。

作文

In the field of geometry, the concept of angles plays a crucial role in understanding various shapes and their properties. One interesting term that often comes up in discussions about angles is boundary angle. A boundary angle is defined as the angle formed by two intersecting lines or segments at a boundary point. This concept can be applied in various disciplines, including architecture, engineering, and even art. Understanding boundary angles can help us analyze and create more complex structures and designs.To illustrate the importance of boundary angles, let’s consider a practical example in architecture. When designing a building, architects must take into account the angles at which walls meet. The boundary angle between two walls can significantly affect the overall aesthetics and functionality of the space. For instance, a sharp boundary angle may create an uncomfortable feeling in a room, while a more obtuse angle can make the space feel more open and inviting. Therefore, understanding how to manipulate boundary angles is essential for architects who aim to create harmonious and functional spaces.In engineering, boundary angles also play a significant role in structural integrity. Engineers must calculate the boundary angles when designing bridges, roads, and other infrastructure to ensure that they can withstand various forces. If the boundary angles are not appropriately calculated, it could lead to structural failures, which can be catastrophic. Thus, engineers rely heavily on the principles of geometry, including the concept of boundary angles, to ensure safety and durability in their designs.Moreover, boundary angles are not limited to physical structures; they also appear in abstract concepts such as data visualization. In statistics, for example, when plotting data points on a graph, the angle formed at the intersection of different data sets can provide insights into relationships and trends. By analyzing these boundary angles, researchers can draw conclusions about correlations and causations in their data, leading to more informed decisions.Art is another area where boundary angles are significant. Artists often use angles deliberately to create perspective and depth in their work. By manipulating boundary angles, artists can guide the viewer’s eye and evoke specific emotions. For instance, a painting with sharp boundary angles may convey tension or chaos, while softer angles can suggest calmness and serenity. Understanding the impact of boundary angles allows artists to communicate more effectively through their work.In conclusion, the concept of boundary angle is multifaceted and extends beyond simple geometric definitions. Whether in architecture, engineering, data analysis, or art, boundary angles play a vital role in shaping our understanding and interaction with the world around us. By grasping the significance of boundary angles, we can enhance our skills in various fields and appreciate the intricate relationships between angles and the structures they help create.

在几何学领域，角的概念在理解各种形状及其属性方面发挥着至关重要的作用。在关于角的讨论中，一个有趣的术语是边界角。边界角被定义为在边界点处由两条相交的线或线段形成的角。这个概念可以应用于多个学科，包括建筑、工程甚至艺术。理解边界角可以帮助我们分析和创造更复杂的结构和设计。为了说明边界角的重要性，让我们考虑建筑中的一个实际例子。在设计建筑时，建筑师必须考虑墙壁相遇的角度。两面墙之间的边界角可以显著影响空间的整体美感和功能。例如，尖锐的边界角可能会让房间感觉不舒服，而更钝的角度可以使空间感觉更开放和宜人。因此，理解如何操控边界角对那些旨在创造和谐与功能空间的建筑师来说至关重要。在工程学中，边界角同样在结构完整性方面发挥着重要作用。工程师在设计桥梁、道路和其他基础设施时，必须计算边界角以确保它们能够承受各种力量。如果边界角计算不当，可能会导致结构故障，这可能是灾难性的。因此，工程师在其设计中高度依赖几何原理，包括边界角的概念，以确保安全和耐用性。此外，边界角不仅限于物理结构；它们还出现在数据可视化等抽象概念中。例如，在统计学中，当在图表上绘制数据点时，不同数据集交叉处形成的角度可以提供对关系和趋势的洞察。通过分析这些边界角，研究人员可以得出关于数据中相关性和因果关系的结论，从而做出更明智的决策。艺术是另一个边界角重要的领域。艺术家常常故意使用角度来创造透视和深度。通过操控边界角，艺术家可以引导观众的视线并唤起特定的情感。例如，一幅具有尖锐边界角的画作可能传达紧张或混乱，而柔和的角度则可以暗示平静和宁静。理解边界角的影响使艺术家能够更有效地通过他们的作品进行交流。总之，边界角的概念是多方面的，超出了简单的几何定义。无论是在建筑、工程、数据分析还是艺术中，边界角在塑造我们对周围世界的理解和互动中发挥着至关重要的作用。通过掌握边界角的重要性，我们可以增强在各个领域的技能，并欣赏角度与它们帮助创造的结构之间的复杂关系。