elevation number

简明释义

海拔

英英释义

例句

1.To determine the best location for the new building, we need to consider the elevation number 海拔数 of the site.

为了确定新建筑的最佳位置，我们需要考虑该地点的海拔数。

2.The elevation number 海拔数 of the city is approximately 500 meters above sea level.

该城市的海拔数大约为海平面以上500米。

3.The topographic map indicates the elevation number 海拔数 of each mountain.

这张地形图显示了每座山的海拔数。

4.When hiking, always check the elevation number 海拔数 to ensure you are prepared for altitude changes.

徒步旅行时，务必检查海拔数以确保你为高度变化做好准备。

5.The pilot reported the elevation number 海拔数 of the aircraft at 10,000 feet during the flight.

飞行员在飞行中报告飞机的海拔数为10,000英尺。

作文

Understanding the concept of an elevation number is crucial in various fields such as geography, architecture, and environmental science. The elevation number refers to the height of a particular point on the Earth's surface in relation to sea level. This measurement plays a significant role in determining climate, vegetation, and even human activities in a given area. For instance, areas with high elevation numbers tend to have cooler temperatures and different ecological systems compared to lowland regions. In geography, the elevation number helps in creating topographic maps that illustrate the terrain of a region. These maps are essential for hikers, urban planners, and environmentalists who need to understand the landscape they are dealing with. By analyzing the elevation numbers of various locations, one can predict water flow, assess natural hazards like landslides, and determine suitable sites for construction. Moreover, in architecture, the elevation number is vital when designing buildings and infrastructure. Architects must consider the elevation when planning structures to ensure they are safe from flooding and other natural disasters. Buildings constructed at higher elevation numbers may require different materials and designs to withstand the elements, such as wind and snow. Additionally, understanding the elevation number can aid in optimizing energy efficiency by taking advantage of natural light and wind patterns. Environmental scientists also rely on elevation numbers to study ecosystems and biodiversity. Different species thrive at different elevations; for example, certain plants and animals are adapted to high altitudes, while others prefer lowland areas. By examining how elevation numbers affect biodiversity, researchers can gain insights into climate change and its impact on various habitats. This knowledge is crucial for conservation efforts and for developing strategies to protect endangered species. In addition to its scientific applications, the concept of elevation numbers can also be appreciated in recreational activities. For hikers and climbers, understanding the elevation number of a trail or mountain can help them prepare adequately for their journey. It allows them to gauge the difficulty level of a hike and plan their gear and supplies accordingly. Furthermore, many outdoor enthusiasts track their progress by noting the elevation numbers they achieve during their excursions, which can be a source of motivation and accomplishment. In conclusion, the elevation number is a fundamental concept that transcends various disciplines. Whether it is used in mapping, construction, environmental studies, or outdoor activities, understanding the elevation number provides valuable insights into our world. As we continue to explore and interact with our environment, recognizing the significance of these measurements will enhance our ability to make informed decisions and promote sustainable practices. Therefore, mastering the concept of elevation numbers is essential for anyone engaged in fields related to the Earth’s surface and its dynamics.

理解“elevation number”这个概念在地理、建筑和环境科学等多个领域至关重要。“elevation number”指的是某一点相对于海平面的高度。这一测量在确定气候、植被乃至人类活动方面发挥着重要作用。例如，高“elevation numbers”的地区通常气温较低，生态系统与低洼地区截然不同。在地理学中，“elevation number”帮助创建地形图，这些地图展示了一个地区的地形。这些地图对徒步旅行者、城市规划者和环保人士来说至关重要，因为他们需要了解所处的地形。通过分析各个位置的“elevation numbers”，可以预测水流、评估自然灾害如滑坡，并确定建筑的适宜地点。此外，在建筑学中，“elevation number”在设计建筑和基础设施时至关重要。建筑师在规划结构时必须考虑海拔，以确保其安全免受洪水和其他自然灾害的影响。建造在高“elevation numbers”上的建筑可能需要不同的材料和设计，以抵御风雪等自然因素。此外，理解“elevation number”可以通过利用自然光和风的模式来优化能源效率。环境科学家也依赖“elevation numbers”来研究生态系统和生物多样性。不同物种在不同海拔高度繁衍生息；例如，某些植物和动物适应于高海拔，而另一些则更喜欢低洼地区。通过研究“elevation numbers”如何影响生物多样性，研究人员可以深入了解气候变化及其对各种栖息地的影响。这些知识对保护工作至关重要，有助于制定保护濒危物种的策略。除了科学应用外，“elevation numbers”的概念在休闲活动中也得到了认可。对于徒步旅行者和登山者来说，了解小径或山脉的“elevation number”可以帮助他们做好充分准备。它使他们能够评估徒步旅行的难度，并相应计划装备和补给。此外，许多户外爱好者通过记录他们在远足过程中达到的“elevation numbers”来跟踪自己的进展，这可以成为一种激励和成就感的来源。总之，“elevation number”是一个超越多个学科的基本概念。无论是在制图、建筑、环境研究还是户外活动中，理解“elevation number”都为我们提供了对世界的宝贵见解。随着我们继续探索和与环境互动，认识到这些测量的重要性将增强我们做出明智决策和促进可持续实践的能力。因此，掌握“elevation numbers”的概念对于从事与地球表面及其动态相关领域的任何人来说都是必不可少的。