Uno de esos trabajos que pueden verse una y otra vez y no pierden su interés.
Las secuencias finales con las auroras boreales son de gran belleza, así como la continua descarga de fenómenos eléctricos sobre la superficie del planeta .
Inspired by a version of the opening sequence of this clip called ‘What does it feel like to fly over planet Earth?’, I tracked down the original time-lapse sequence taken on the International Space Station (ISS) via NASA, found some additional ones there, including the spectacular Aurora Australis sequences, and set it to a soundtrack that almost matches the awe and wonder I feel when I see our home from above.
To those brave men and women who fly alone in the night to take us to the stars, we salute you.
Music: ‘Freedom Fighters’ by Two Steps from Hell
Editor: David Peterson
Serving Suggestion: 1080p, lights off, volume up 🙂
1. North-to-south down the western coast of North and South America.
2. North-to-south over Florida, the Bahamas and other Caribbean islands.
3. South-East Asia, approaching the Philippine Sea
4. Western Europe, from France through Italy, Greece, Turkey and the Middle East.
5. Aurora Australis, over the Indian Ocean, approaching Australia
6. Aurora Australis, over the Indian Ocean.
7. Aurora Australis, unknown location in the Southern Hemisphere.
Featured on NASA’s Astronomy Picture of the Day!
Explanation from NASA: Many wonders are visible when flying over the Earth at night. A compilation of such visual spectacles was captured recently from the International Space Station (ISS) and set to rousing music. Passing below are white clouds, orange city lights, lightning flashes in thunderstorms, and dark blue seas. On the horizon is the golden haze of Earth’s thin atmosphere, frequently decorated by dancing auroras as the video progresses. The green parts of auroras typically remain below the space station, but the station flies right through the red and purple auroral peaks. Solar panels of the ISS are seen around the frame edges. The ominous wave of approaching brightness at the end of each sequence is just the dawn of the sunlit half of Earth, a dawn that occurs every 90 minutes.