balloon sounding

简明释义

气球探测;

英英释义

例句

1.In our geography class, we discussed the significance of balloon sounding 气球探测 in understanding weather patterns.

在我们的地理课上，我们讨论了balloon sounding 气球探测在理解天气模式中的重要性。

2.The meteorologist explained how balloon sounding 气球探测 helps gather data about the atmosphere.

气象学家解释了如何通过balloon sounding 气球探测来收集大气数据。

3.The research team used balloon sounding 气球探测 to collect upper-atmosphere data for their climate study.

研究小组使用balloon sounding 气球探测收集上层大气数据，以进行气候研究。

4.The student conducted a balloon sounding 气球探测 experiment to observe changes in air pressure as the balloon ascended.

学生进行了一个balloon sounding 气球探测实验，以观察气球上升时气压的变化。

5.During the training session, we learned to conduct balloon sounding 气球探测 to measure temperature and humidity at different altitudes.

在培训课程中，我们学习了如何进行balloon sounding 气球探测，以测量不同高度的温度和湿度。

作文

In the field of meteorology, various techniques are employed to gather data about the atmosphere. One such method is known as balloon sounding, which involves using weather balloons equipped with instruments to measure atmospheric conditions at different altitudes. This technique plays a crucial role in understanding weather patterns and forecasting. The process begins with the launch of a helium or hydrogen-filled balloon that ascends into the atmosphere. As it rises, the balloon expands due to the decreasing air pressure. Attached to the balloon is a radiosonde, an instrument that collects data such as temperature, humidity, and pressure. This data is transmitted back to ground stations for analysis.The significance of balloon sounding cannot be overstated. It provides valuable information that helps meteorologists predict severe weather events, such as storms or heatwaves. By analyzing the data collected from these balloon launches, scientists can create more accurate weather models. Furthermore, balloon sounding allows researchers to study the upper layers of the atmosphere, which are often inaccessible through other means.One of the advantages of balloon sounding is its cost-effectiveness. Unlike satellite data, which can be expensive and complex to obtain, weather balloons are relatively inexpensive and can be launched from various locations. This accessibility enables more frequent data collection, leading to better-informed weather predictions. Additionally, balloon sounding can be conducted in remote areas where other forms of data collection may not be feasible.However, there are challenges associated with balloon sounding. The balloons can drift off course due to wind currents, which may lead to data being collected from unintended locations. Moreover, once the balloon reaches a certain altitude, it eventually bursts, and the equipment falls back to Earth. Although most radiosondes are designed to be lightweight and biodegradable, there are environmental concerns regarding their disposal.Despite these challenges, the benefits of balloon sounding far outweigh the drawbacks. It is an essential tool for meteorologists and researchers who seek to understand the complexities of our atmosphere. As technology advances, the instruments used in balloon sounding continue to improve, allowing for even more precise measurements and data collection. This ongoing evolution will enhance our ability to forecast weather and respond to climate change effectively.In conclusion, balloon sounding is a vital method for collecting atmospheric data. Its role in weather forecasting and research is indispensable, providing insights that help safeguard lives and property. As we continue to face the challenges of climate change, the importance of reliable weather data becomes increasingly critical. By investing in and improving balloon sounding techniques, we can better prepare for the future and mitigate the impacts of extreme weather events.

在气象学领域，采用多种技术来收集大气数据。其中一种方法称为气球探测，它涉及使用装有仪器的气象气球来测量不同高度的大气条件。这项技术在理解天气模式和预报中发挥着至关重要的作用。该过程始于发射一个充满氦气或氢气的气球，气球向大气中升起。随着它的上升，气球因气压下降而膨胀。气球上附着着一个无线电探空仪，这是一种收集温度、湿度和气压等数据的仪器。这些数据会传回地面站进行分析。气球探测的重要性不容小觑。它提供了宝贵的信息，帮助气象学家预测严重天气事件，如风暴或热浪。通过分析这些气球发射收集的数据，科学家可以创建更准确的天气模型。此外，气球探测还允许研究人员研究大气的上层，这些区域通常通过其他手段无法到达。气球探测的一个优势是其成本效益。与卫星数据相比，卫星数据获取成本高且复杂，而气象气球相对便宜，可以从多个地点发射。这种可及性使得更频繁的数据收集成为可能，从而导致更好的天气预测。此外，气球探测可以在偏远地区进行，在这些地方，其他形式的数据收集可能不可行。然而，气球探测也面临一些挑战。由于气流的影响，气球可能偏离航向，这可能导致数据来自意想不到的位置。此外，一旦气球达到一定高度，它最终会爆炸，设备会掉回地面。尽管大多数无线电探空仪设计为轻量且可生物降解，但仍存在关于其处置的环境问题。尽管存在这些挑战，气球探测的好处远远超过缺点。它是气象学家和研究人员的基本工具，帮助他们理解我们大气的复杂性。随着技术的进步，气球探测中使用的仪器不断改进，使得更精确的测量和数据收集成为可能。这一持续的演变将增强我们有效预测天气和应对气候变化的能力。总之，气球探测是收集大气数据的重要方法。它在天气预报和研究中的作用不可或缺，提供了帮助保护生命和财产的见解。随着我们继续面临气候变化的挑战，可靠天气数据的重要性变得越来越关键。通过投资和改善气球探测技术，我们可以更好地为未来做好准备，减轻极端天气事件的影响。