elevation axis
简明释义
仰角轴
英英释义
例句
1.When analyzing the data, the elevation axis helps us understand the variations in terrain.
在分析数据时,高度轴帮助我们理解地形的变化。
2.In this topographic map, the elevation axis indicates the height above sea level.
在这张地形图中,高度轴表示海拔高度。
3.To create a 3D model, we need to define the elevation axis accurately.
为了创建一个3D模型,我们需要准确地定义高度轴。
4.The architect designed the building with a clear elevation axis to enhance its visual appeal.
建筑师设计了这座建筑,明确的高度轴增强了其视觉吸引力。
5.The elevation axis on the graph shows the relationship between altitude and temperature.
图表上的高度轴显示了海拔与温度之间的关系。
作文
The concept of the elevation axis is crucial in various fields, including architecture, engineering, and geography. Understanding this term can enhance our comprehension of how structures and landscapes are designed and analyzed. In simple terms, the elevation axis refers to a vertical line that represents height or elevation in a given context. This axis is essential for visualizing the three-dimensional aspects of an object, allowing us to perceive how high it rises above a reference point, such as sea level or ground level.In architecture, the elevation axis plays a significant role in the design of buildings. Architects use this concept to create elevations, which are drawings that depict the vertical aspects of a structure. By establishing the elevation axis, architects can ensure that their designs meet specific height requirements and aesthetic goals. For instance, when designing a skyscraper, architects must consider the elevation axis to determine how tall the building will be and how it will relate to its surroundings. This not only affects the building's visibility but also impacts factors like sunlight exposure and wind patterns.In engineering, the elevation axis is used in the construction of roads and bridges. Engineers analyze the elevation axis to ensure that these structures are safe and functional. For example, when designing a bridge, engineers must take into account the height of the bridge above the water level to prevent flooding and ensure adequate clearance for boats. The elevation axis helps them visualize the necessary height and slope, ensuring that the bridge will serve its purpose effectively.Geographers also utilize the elevation axis when mapping terrain. Topographic maps often feature contour lines that indicate changes in elevation across a landscape. By understanding the elevation axis, geographers can analyze landforms, such as mountains and valleys, and assess their impact on human activities. For instance, a steep elevation axis may indicate a mountain range that could influence weather patterns, biodiversity, and even settlement patterns.In addition to its practical applications, the elevation axis also has aesthetic implications. Artists and designers often consider elevation when creating visual representations of landscapes or architectural projects. By manipulating the elevation axis, they can create depth and perspective in their work, drawing the viewer's eye upward or highlighting the grandeur of a particular structure.In conclusion, the elevation axis is a fundamental concept that transcends disciplines. Whether in architecture, engineering, geography, or art, understanding the elevation axis allows professionals to create functional, safe, and visually appealing designs. As we continue to explore and develop our environments, the importance of the elevation axis will remain a critical factor in shaping our world. By mastering this concept, we can better appreciate the intricacies of the spaces we inhabit and the structures we create.
“elevation axis”的概念在建筑、工程和地理等多个领域中至关重要。理解这个术语可以增强我们对结构和景观设计与分析的理解。简单来说,elevation axis指的是一个表示高度或海拔的垂直线。在给定的上下文中,这一轴线对于可视化物体的三维特征至关重要,使我们能够感知其相对于参考点(如海平面或地面)的高度。在建筑学中,elevation axis在建筑设计中发挥着重要作用。建筑师使用这一概念来创建立面图,即描绘结构垂直方面的图纸。通过确定elevation axis,建筑师可以确保他们的设计符合特定的高度要求和美学目标。例如,在设计一座摩天大楼时,建筑师必须考虑elevation axis以确定建筑的高度及其与周围环境的关系。这不仅影响建筑的可见性,还影响阳光照射和风力模式等因素。在工程学中,elevation axis被用于道路和桥梁的建设。工程师分析elevation axis以确保这些结构的安全性和功能性。例如,在设计一座桥时,工程师必须考虑桥面高于水位的高度,以防止洪水并确保船只的通行空间。elevation axis帮助他们可视化必要的高度和坡度,确保桥梁有效地发挥其作用。地理学家在制图时也利用elevation axis。地形图通常具有表示地形变化的等高线。通过理解elevation axis,地理学家可以分析地貌,如山脉和山谷,并评估其对人类活动的影响。例如,陡峭的elevation axis可能表明一条山脉,这可能影响天气模式、生物多样性甚至人口分布。除了实际应用外,elevation axis还有美学意义。艺术家和设计师在创作景观或建筑项目的视觉表现时,常常考虑高度。通过操控elevation axis,他们可以在作品中创造深度和透视,吸引观众的目光向上移动或突出某一特定结构的宏伟。总之,elevation axis是一个超越学科的基本概念。无论是在建筑、工程、地理还是艺术中,理解elevation axis使专业人士能够创造出功能性、安全性和视觉吸引力兼具的设计。随着我们继续探索和发展我们的环境,elevation axis的重要性将继续成为塑造我们世界的关键因素。通过掌握这一概念,我们可以更好地欣赏我们居住的空间和我们创造的结构的复杂性。
