barometric hypsometry

简明释义

气压测高法;

英英释义

例句

1.Using barometric hypsometry, we can accurately measure the height of the mountain without needing to climb it.

通过使用气压高程法，我们可以准确测量山的高度，而无需亲自攀登。

2.In mountaineering, climbers often rely on barometric hypsometry to track their elevation gain during ascents.

在登山活动中，登山者常常依赖气压高程法来跟踪他们在攀登过程中的海拔升高。

3.The use of barometric hypsometry in meteorology allows scientists to estimate altitude based on air pressure.

在气象学中，使用气压高程法可以让科学家根据气压估算高度。

4.The barometric hypsometry method proved essential for the research team's study of climate change effects at various altitudes.

对于研究小组在不同海拔高度上气候变化影响的研究，气压高程法被证明是至关重要的。

5.Geologists utilize barometric hypsometry to determine the heights of rock formations in remote areas.

地质学家利用气压高程法来确定偏远地区岩层的高度。

作文

Barometric hypsometry is a scientific method used to determine the elevation of a location based on atmospheric pressure measurements. This technique is particularly useful in fields such as meteorology, geology, and environmental science. The fundamental principle behind barometric hypsometry (气压高程测量) is that atmospheric pressure decreases with an increase in altitude. As one ascends a mountain or any elevated terrain, the air becomes less dense, resulting in a drop in pressure. By measuring this pressure change, scientists can accurately calculate the height above sea level of a given point.The application of barometric hypsometry (气压高程测量) is not limited to theoretical studies; it has practical implications as well. For instance, climbers and hikers often rely on altimeters, which use this method to provide them with real-time elevation data. These devices measure the atmospheric pressure and compare it to a standard pressure value at sea level, allowing users to gauge their altitude accurately. This is crucial for safety and navigation in mountainous regions.In addition to outdoor activities, barometric hypsometry (气压高程测量) plays a significant role in aviation. Pilots utilize this technique to maintain safe flight altitudes. Aircraft are equipped with altimeters that function based on the principles of barometric hypsometry (气压高程测量), ensuring that they fly at the correct altitude to avoid obstacles and other aircraft. Understanding how pressure changes with elevation is vital for flight safety and efficiency.Moreover, barometric hypsometry (气压高程测量) is also essential in weather forecasting. Meteorologists analyze pressure patterns to predict weather changes. High-pressure systems typically indicate fair weather, while low-pressure systems are associated with stormy conditions. By understanding the relationship between pressure and altitude, meteorologists can make more accurate predictions about weather phenomena.The study of barometric hypsometry (气压高程测量) extends beyond immediate applications. It contributes to our understanding of climate change and its effects on different geographical areas. By monitoring pressure changes over time, scientists can gather data that reflects alterations in atmospheric conditions, which may be linked to global warming or other environmental shifts.In conclusion, barometric hypsometry (气压高程测量) is a valuable tool that serves multiple purposes across various fields. Its ability to determine elevation through atmospheric pressure measurements has practical applications in hiking, aviation, and meteorology. As we continue to face challenges related to climate change and environmental management, the importance of understanding and utilizing barometric hypsometry (气压高程测量) will only grow. Whether for navigation, safety, or scientific research, this method remains a critical component of our toolkit for exploring and understanding the world around us.

气压高程测量是一种科学方法，用于根据大气压力测量确定某个位置的海拔高度。这种技术在气象学、地质学和环境科学等领域特别有用。气压高程测量的基本原理是，大气压力随着海拔高度的增加而降低。当人们攀登山峰或任何高地时，空气变得稀薄，导致压力下降。通过测量这种压力变化，科学家可以准确计算给定点的海平面高度。气压高程测量不仅限于理论研究；它也具有实际意义。例如，登山者和徒步旅行者通常依赖高度计，这些设备利用这种方法提供实时的海拔数据。这些设备测量大气压力，并将其与海平面的标准压力值进行比较，从而使用户能够准确估计他们的海拔。这对山区的安全和导航至关重要。除了户外活动，气压高程测量在航空中也发挥着重要作用。飞行员利用这一技术保持安全的飞行高度。飞机配备了基于气压高程测量原理的高度计，确保它们在正确的高度飞行，以避免障碍物和其他飞机。理解压力如何随高度变化对于飞行安全和效率至关重要。此外，气压高程测量在天气预报中也至关重要。气象学家分析压力模式以预测天气变化。高压系统通常表示良好的天气，而低压系统则与暴风雨天气相关。通过理解压力与海拔之间的关系，气象学家可以更准确地预测天气现象。对气压高程测量的研究超越了即时应用。它有助于我们理解气候变化及其对不同地理区域的影响。通过监测压力随时间的变化，科学家可以收集反映大气条件变化的数据，这可能与全球变暖或其他环境变化有关。总之，气压高程测量是一种有价值的工具，在各个领域发挥着多重作用。通过大气压力测量确定海拔高度的能力在徒步旅行、航空和气象等方面具有实际应用。随着我们继续面对与气候变化和环境管理相关的挑战，理解和利用气压高程测量的重要性只会增加。无论是为了导航、安全还是科学研究，这种方法仍然是我们探索和理解周围世界的重要组成部分。