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サマリー
あらすじ・解説
On November 22nd, a significant event in astronomy occurred in 1977. On this date, scientists launched the Meteosat-1, Europe's first geostationary weather satellite. This launch marked a pivotal moment in meteorological history and space exploration.
Meteosat-1 was like a celestial weatherman, perched high above the Earth in a geostationary orbit about 35,786 kilometers (22,236 miles) above the equator. From this lofty vantage point, it could keep a constant eye on the weather patterns over Europe and Africa, providing near-real-time images every 30 minutes.
Imagine this space-age sentinel, about the size of a large refrigerator, spinning at a dizzying 100 rotations per minute to maintain stability. As it twirled, its single radiometer scanned the Earth, capturing images in visible light and infrared wavelengths. These images were then beamed back to Earth, giving meteorologists an unprecedented view of cloud formations, storm systems, and atmospheric conditions.
Meteosat-1's launch was a bit like sending a cosmic paparazzo into space, ready to snap candid shots of Mother Nature's mood swings. It revolutionized weather forecasting, allowing meteorologists to track the development and movement of weather systems with far greater accuracy than ever before.
This satellite was the first in a long line of Meteosat satellites, paving the way for more advanced weather monitoring from space. It's amusing to think that while people on Earth were disco dancing and watching "Star Wars" for the first time in 1977, this diligent space photographer was quietly spinning above, capturing the Earth's ever-changing atmospheric fashion show.
Meteosat-1 continued its space-based weather watch until November 1979, outliving its designed lifespan by almost a year. Its legacy lives on in the continued use of geostationary weather satellites, which have become an indispensable tool in modern meteorology and climate science.
So, on this day in astronomy history, we celebrate the launch of Europe's first celestial weatherman, forever changing how we understand and predict the whims of our planet's atmosphere.
Meteosat-1 was like a celestial weatherman, perched high above the Earth in a geostationary orbit about 35,786 kilometers (22,236 miles) above the equator. From this lofty vantage point, it could keep a constant eye on the weather patterns over Europe and Africa, providing near-real-time images every 30 minutes.
Imagine this space-age sentinel, about the size of a large refrigerator, spinning at a dizzying 100 rotations per minute to maintain stability. As it twirled, its single radiometer scanned the Earth, capturing images in visible light and infrared wavelengths. These images were then beamed back to Earth, giving meteorologists an unprecedented view of cloud formations, storm systems, and atmospheric conditions.
Meteosat-1's launch was a bit like sending a cosmic paparazzo into space, ready to snap candid shots of Mother Nature's mood swings. It revolutionized weather forecasting, allowing meteorologists to track the development and movement of weather systems with far greater accuracy than ever before.
This satellite was the first in a long line of Meteosat satellites, paving the way for more advanced weather monitoring from space. It's amusing to think that while people on Earth were disco dancing and watching "Star Wars" for the first time in 1977, this diligent space photographer was quietly spinning above, capturing the Earth's ever-changing atmospheric fashion show.
Meteosat-1 continued its space-based weather watch until November 1979, outliving its designed lifespan by almost a year. Its legacy lives on in the continued use of geostationary weather satellites, which have become an indispensable tool in modern meteorology and climate science.
So, on this day in astronomy history, we celebrate the launch of Europe's first celestial weatherman, forever changing how we understand and predict the whims of our planet's atmosphere.