synchronous meteorological satellite

简明释义

同步气象卫星

英英释义

例句

1.Farmers use information from synchronous meteorological satellites to plan their planting schedules.

农民利用来自静止气象卫星的信息来规划种植时间表。

2.The launch of the new synchronous meteorological satellite has improved weather forecasting significantly.

新的静止气象卫星的发射显著改善了天气预报。

3.The synchronous meteorological satellite provides real-time images of cloud cover.

静止气象卫星提供云层覆盖的实时图像。

4.The accuracy of climate models has improved thanks to data from synchronous meteorological satellites.

由于来自静止气象卫星的数据，气候模型的准确性得到了提高。

5.Meteorologists rely on data from synchronous meteorological satellites to track storm patterns.

气象学家依赖于来自静止气象卫星的数据来追踪风暴模式。

作文

In the realm of modern technology, the advent of satellites has revolutionized the way we observe and understand our planet. Among these technological marvels is the synchronous meteorological satellite, which plays a crucial role in weather forecasting and environmental monitoring. These satellites are positioned in geostationary orbit, allowing them to maintain a constant position relative to the Earth's surface. This unique characteristic enables them to provide continuous observation of specific regions, making them indispensable for meteorologists and climate scientists alike.The primary function of a synchronous meteorological satellite is to monitor atmospheric conditions and collect data that can be used to predict weather patterns. By utilizing advanced sensors and imaging technology, these satellites capture real-time images of cloud formations, temperature variations, and other meteorological phenomena. This information is then transmitted back to Earth, where it is analyzed to create accurate weather forecasts. The ability to observe weather systems as they develop allows for timely warnings of severe weather events, such as hurricanes, tornadoes, and thunderstorms, ultimately saving lives and property.Moreover, synchronous meteorological satellites contribute significantly to climate research. By providing long-term data on temperature changes, precipitation patterns, and atmospheric composition, they help scientists understand the impacts of climate change and devise strategies for mitigation. This data is essential for developing climate models that predict future conditions, aiding policymakers in making informed decisions regarding environmental protection and sustainability.One of the most notable examples of a synchronous meteorological satellite is the GOES (Geostationary Operational Environmental Satellite) series, operated by the National Oceanic and Atmospheric Administration (NOAA) in the United States. These satellites have been instrumental in monitoring weather patterns across North America and have significantly improved the accuracy of weather forecasts. The GOES satellites provide continuous imagery and data that assist meteorologists in tracking storms and analyzing atmospheric conditions, thus enhancing our understanding of weather dynamics.The importance of synchronous meteorological satellites extends beyond weather forecasting; they also play a vital role in disaster management. In the event of natural disasters, such as floods or wildfires, these satellites provide critical information that helps emergency responders assess the situation and coordinate relief efforts. The ability to monitor changes in land use, vegetation, and water bodies from space enables authorities to respond more effectively to crises, ultimately saving lives and minimizing damage.In conclusion, the synchronous meteorological satellite is an indispensable tool in the modern scientific arsenal. Its ability to provide continuous, real-time data on atmospheric conditions has transformed the fields of meteorology and climate science. As we continue to face the challenges posed by climate change and extreme weather events, the role of these satellites will only become more important. Investing in satellite technology and research will ensure that we are better equipped to understand and respond to the ever-changing dynamics of our planet's atmosphere.

在现代科技领域，卫星的出现彻底改变了我们观察和理解地球的方式。在这些技术奇迹中，synchronous meteorological satellite（同步气象卫星）发挥着至关重要的作用，尤其是在天气预报和环境监测方面。这些卫星被置于地球静止轨道，使它们能够相对于地球表面保持恒定的位置。这一独特特性使得它们可以对特定区域进行持续观察，因此对气象学家和气候科学家来说不可或缺。synchronous meteorological satellite（同步气象卫星）的主要功能是监测大气条件并收集可用于预测天气模式的数据。通过利用先进的传感器和成像技术，这些卫星捕捉云层形成、温度变化和其他气象现象的实时图像。这些信息随后被传回地球，在那里进行分析，以创建准确的天气预报。观察天气系统的发展使得及时发出严重天气事件的警报成为可能，例如飓风、龙卷风和雷暴，从而最终拯救生命和财产。此外，synchronous meteorological satellites（同步气象卫星）对气候研究也有重要贡献。通过提供长期的温度变化、降水模式和大气成分的数据，它们帮助科学家了解气候变化的影响并制定减缓策略。这些数据对于开发预测未来条件的气候模型至关重要，帮助政策制定者就环境保护和可持续发展做出明智决策。一个最著名的例子是GOES（地球静止操作环境卫星）系列，由美国国家海洋和大气管理局（NOAA）运营。这些卫星在监测北美的天气模式方面发挥了重要作用，并显著提高了天气预报的准确性。GOES卫星提供连续的图像和数据，帮助气象学家跟踪风暴并分析大气条件，从而增强我们对天气动态的理解。synchronous meteorological satellites（同步气象卫星）的重要性不仅限于天气预报；它们在灾害管理中也发挥着至关重要的作用。在自然灾害发生时，例如洪水或森林火灾，这些卫星提供的关键信息帮助应急响应人员评估情况并协调救援工作。从太空监测土地使用、植被和水体变化的能力使当局能够更有效地应对危机，最终拯救生命并减少损失。总之，synchronous meteorological satellite（同步气象卫星）是现代科学工具中不可或缺的一部分。它提供的关于大气条件的连续实时数据已经改变了气象学和气候科学的领域。随着我们继续面对气候变化和极端天气事件带来的挑战，这些卫星的作用只会变得更加重要。投资于卫星技术和研究将确保我们更好地理解和应对我们星球大气的不断变化动态。