earth based coordinate system
简明释义
地球坐标系
英英释义
A coordinate system that uses the Earth's surface as a reference point for defining positions and locations in three-dimensional space. | 一种以地球表面作为参考点来定义三维空间中位置和地点的坐标系统。 |
例句
1.Scientists use an earth based coordinate system to track climate change effects.
科学家使用地球坐标系统来追踪气候变化的影响。
2.Cartographers rely on an earth based coordinate system for creating accurate maps.
制图师依赖于地球坐标系统来制作准确的地图。
3.The satellite uses an earth based coordinate system to accurately map the surface of the planet.
卫星使用地球坐标系统来准确绘制地球表面。
4.In GPS technology, the earth based coordinate system helps determine your exact location.
在GPS技术中,地球坐标系统帮助确定你的确切位置。
5.The earth based coordinate system is essential for navigation in aviation.
在航空导航中,地球坐标系统是必不可少的。
作文
In the field of geography and navigation, understanding spatial relationships is crucial. One of the fundamental concepts that facilitate this understanding is the earth based coordinate system. This system allows us to pinpoint locations on the Earth's surface using a set of numerical values. The earth based coordinate system consists of latitude and longitude, which are essential for mapping and navigation purposes. Latitude measures how far north or south a point is from the equator, while longitude measures how far east or west a point is from the Prime Meridian.The significance of the earth based coordinate system cannot be overstated. It serves as a universal language for geographers, cartographers, and navigators. By using this system, we can communicate precise locations across the globe, making it easier to share information and collaborate on various projects. For instance, when planning a trip, travelers rely on the earth based coordinate system to find their destinations and ensure they arrive at the correct location.Moreover, the earth based coordinate system plays a vital role in various scientific fields. In environmental studies, researchers use this system to track changes in ecosystems and monitor wildlife populations. By accurately mapping locations, scientists can analyze data and draw meaningful conclusions about environmental health. Similarly, in urban planning, the earth based coordinate system helps planners design infrastructure and allocate resources effectively.The advent of technology has further enhanced the application of the earth based coordinate system. With the rise of GPS (Global Positioning System), individuals can now access their precise coordinates in real-time. This technology has revolutionized navigation, allowing users to find directions easily and avoid getting lost. Additionally, mobile applications utilize the earth based coordinate system to provide location-based services, such as restaurant recommendations and ride-sharing options.However, understanding the earth based coordinate system is not just about knowing how to read coordinates; it also involves recognizing its limitations. For instance, while the system provides a two-dimensional representation of the Earth, it does not account for elevation or depth. As a result, it can be challenging to represent three-dimensional features, such as mountains or ocean floors, accurately. Furthermore, the earth based coordinate system is based on a spherical model of the Earth, which can lead to distortions in certain areas, particularly near the poles.In conclusion, the earth based coordinate system is an indispensable tool for understanding our world. It enables us to navigate, communicate, and analyze spatial relationships effectively. Whether we are planning a journey, conducting scientific research, or designing urban spaces, the earth based coordinate system provides the framework necessary for accurate and meaningful interactions with our environment. As technology continues to evolve, the importance of this system will only grow, making it essential for future generations to master this fundamental concept in geography.
在地理和导航领域,理解空间关系至关重要。促进这种理解的基本概念之一是基于地球的坐标系统。这个系统允许我们使用一组数值来准确定位地球表面的位置。基于地球的坐标系统由纬度和经度组成,这对于制图和导航目的至关重要。纬度测量一个点距离赤道的南北位置,而经度测量一个点距离本初子午线的东西位置。基于地球的坐标系统的重要性不容小觑。它为地理学家、制图师和导航员提供了一种通用语言。通过使用该系统,我们可以在全球范围内沟通精确的位置,从而更容易分享信息和合作进行各种项目。例如,在计划旅行时,旅行者依赖于基于地球的坐标系统来找到目的地,确保他们到达正确的位置。此外,基于地球的坐标系统在各个科学领域中发挥着至关重要的作用。在环境研究中,研究人员使用该系统跟踪生态系统的变化并监测野生动物种群。通过准确绘制位置,科学家可以分析数据并得出有关环境健康的有意义结论。同样,在城市规划中,基于地球的坐标系统帮助规划者有效设计基础设施和分配资源。科技的出现进一步增强了基于地球的坐标系统的应用。随着GPS(全球定位系统)的兴起,个人现在可以实时访问他们的精确坐标。这项技术彻底改变了导航,使用户能够轻松找到方向并避免迷路。此外,移动应用程序利用基于地球的坐标系统提供基于位置的服务,例如餐厅推荐和拼车选项。然而,理解基于地球的坐标系统不仅仅是知道如何读取坐标;它还涉及到认识其局限性。例如,虽然该系统提供了地球的二维表示,但它并没有考虑高度或深度。因此,准确表示三维特征(例如山脉或海洋底部)可能会很具挑战性。此外,基于地球的坐标系统是基于地球的球形模型,这可能导致某些区域的扭曲,特别是在极地地区。总之,基于地球的坐标系统是理解我们世界的不可或缺的工具。它使我们能够有效地导航、沟通和分析空间关系。无论我们是在规划旅程、进行科学研究还是设计城市空间,基于地球的坐标系统都提供了与环境进行准确和有意义互动所需的框架。随着技术的不断发展,该系统的重要性只会增加,因此未来几代人掌握这一地理学的基本概念将是必不可少的。
相关单词
