azimuthal orthomorphic projection

简明释义

正形方位投影;

英英释义

例句

1.The azimuthal orthomorphic projection allows for a true scale representation of distances from the center point.

方位正形投影允许从中心点真实比例地表示距离。

2.Cartographers often prefer the azimuthal orthomorphic projection for its aesthetic appeal in world maps.

制图师通常更喜欢方位正形投影，因为它在世界地图中的美观性。

3.In meteorology, the azimuthal orthomorphic projection is useful for plotting storm paths.

在气象学中，方位正形投影对于绘制风暴路径非常有用。

4.When creating a globe, the azimuthal orthomorphic projection provides a clear view of the polar regions.

在制作地球仪时，方位正形投影提供了极地地区的清晰视图。

5.The map displayed uses an azimuthal orthomorphic projection, which accurately represents angles for navigation.

这张地图使用了方位正形投影，准确地表示了航行的角度。

作文

The world of cartography is filled with various techniques and methods that allow us to represent the Earth's surface in a two-dimensional format. One of the fascinating projections used in this field is the azimuthal orthomorphic projection. This type of projection is particularly useful for representing polar regions, as it maintains accurate angles and shapes, making it an essential tool for navigational purposes and geographical studies. Understanding the azimuthal orthomorphic projection involves delving into its characteristics and applications, which can illuminate its significance in both historical and modern contexts.The term 'azimuthal' refers to the way in which this projection is created. It is derived from the azimuth, which is the angle between a reference direction (usually north) and the line connecting the observer to a point on the Earth's surface. In the azimuthal orthomorphic projection, the projection is centered on a particular point, usually one of the poles. This central point allows for an accurate representation of distances and directions from that point, which is crucial for navigation and aviation.The 'orthomorphic' aspect of this projection indicates that it preserves angles, meaning that any straight line drawn on the map will represent a true direction. This property makes the azimuthal orthomorphic projection particularly valuable for pilots and navigators, who need to understand not just where they are going but also how to get there efficiently. The preservation of angles allows for easier calculations of course changes and adjustments, which can be lifesaving in critical situations.One of the most notable applications of the azimuthal orthomorphic projection is in aeronautical charts. Pilots rely on these charts to navigate through the skies, and the accuracy provided by this projection helps them avoid obstacles and reach their destinations safely. Additionally, this projection is used in various scientific fields, including meteorology and geology, where understanding spatial relationships is vital.Historically, the azimuthal orthomorphic projection has played a significant role in exploration and mapping. As explorers ventured into uncharted territories, they relied on accurate maps to guide their journeys. The ability to maintain true angles made this projection a preferred choice for many cartographers. Its use has evolved over time, adapting to the needs of modern technology and the increasing complexity of geographic information systems (GIS).In conclusion, the azimuthal orthomorphic projection stands out as a remarkable tool in the world of cartography. Its unique ability to preserve angles while providing a clear representation of the Earth's surface has made it indispensable in navigation, scientific research, and historical exploration. As we continue to advance in our understanding of geography and technology, the relevance of the azimuthal orthomorphic projection will undoubtedly persist, guiding future generations in their quest to explore and understand our planet better.

制图学的世界充满了各种技术和方法，使我们能够以二维格式表示地球表面。在这个领域中，方位正形投影是一种迷人的投影类型。这种投影特别适用于极地地区，因为它保持了准确的角度和形状，使其成为导航和地理研究的重要工具。理解方位正形投影涉及深入研究其特征和应用，这可以阐明其在历史和现代背景下的重要性。“方位”一词是指创建此投影的方式。它源于方位角，即参考方向（通常是北）与连接观察者与地球表面某一点的线之间的角度。在方位正形投影中，投影以特定点为中心，通常是极点。这个中心点允许准确表示从该点到其他点的距离和方向，这对导航和航空至关重要。“正形”的方面表明这种投影保留角度，这意味着在地图上绘制的任何直线都将表示真实方向。这一特性使得方位正形投影对飞行员和导航员特别有价值，他们需要了解不仅仅是他们要去哪里，还要如何有效到达那里。角度的保留使得航向变化和调整的计算变得更加容易，这在关键情况下可能是救命的。方位正形投影的一个显著应用是在航空图表中。飞行员依赖这些图表在空中导航，而这种投影提供的准确性帮助他们避免障碍物并安全到达目的地。此外，这种投影还用于气象学和地质学等多个科学领域，在这些领域中，理解空间关系至关重要。从历史上看，方位正形投影在探索和制图中发挥了重要作用。当探险家进入未知领域时，他们依靠准确的地图来指导他们的旅程。保持真实角度的能力使得这种投影成为许多制图师的首选。随着时间的推移，它的使用不断演变，适应现代技术的需求和地理信息系统（GIS）的日益复杂性。总之，方位正形投影作为制图学中的一个杰出工具脱颖而出。它独特的保持角度的能力，同时清晰地表示地球表面，使其在导航、科学研究和历史探索中不可或缺。随着我们继续加深对地理和技术的理解，方位正形投影的相关性无疑会持续存在，引导未来几代人更好地探索和理解我们的星球。