Time lapse sequences of photographs taken by the crew of expeditions
28 & 29 onboard the International Space Station from August to October,
2011, who to my knowledge shot these pictures at an altitude of around 350 km.
All credit goes to them.
Full HD, refurbished, smoothed, retimed, denoised, deflickered, cut, etc.
All in all I tried to keep the looks of the material as original as possible,
avoided adjusting the colors and the like, since in my opinion the original
footage itself already has an almost surreal and aestethical visual nature.
Music: Jan Jelinek | Do Dekor, faitiche back2001
w+p by Jan Jelinek, published by scape Publishing / Universal janjelinek.com | faitiche.de
Image Courtesy of the Image Science & Analysis Laboratory,
NASA Johnson Space Center, The Gateway to Astronaut Photography of Earth eol.jsc.nasa.gov
1. Aurora Borealis Pass over the United States at Night
2. Aurora Borealis and eastern United States at Night
3. Aurora Australis from Madagascar to southwest of Australia
4. Aurora Australis south of Australia
5. Northwest coast of United States to Central South America at Night
6. Aurora Australis from the Southern to the Northern Pacific Ocean
7. Halfway around the World
8. Night Pass over Central Africa and the Middle East
9. Evening Pass over the Sahara Desert and the Middle East
10. Pass over Canada and Central United States at Night
11. Pass over Southern California to Hudson Bay
12. Islands in the Philippine Sea at Night
13. Pass over Eastern Asia to Philippine Sea and Guam
14. Views of the Mideast at Night
15. Night Pass over Mediterranean Sea
16. Aurora Borealis and the United States at Night
17. Aurora Australis over Indian Ocean
18. Eastern Europe to Southeastern Asia at Night
NOTE: THE FOLLOWING VIDEO DOES NOT REPRESENT THE ENTIRE NIGHT SKY, or at least it doesn't anymore. I've updated the video to omit the foreground landscape in an effort to account for an error in perspective. Unfortunately, due to my error, websites are widely reporting that Jupiter would fill the entire night sky, but it wouldn't. What's depicted here is a much narrower perspective than the previously mentioned 62 degrees, something that I imagine could be calculated by people much brighter than I. I imagine this view is closer to what you'd see through some very weak binoculars, but that's just a guess. For a somewhat technical explanation of what was wrong with the original version of this video, and what that realization can teach us about skepticism, please read the following: bradblogspeed.com/im-bad-at-math
Here's an animation I did to make you feel small, and also convey the deep awe I feel at the feet of the Universe.
While watching the video of the lunar eclipse I posted the other day I was looking at the curvature of the earth's shadow on the moon. It made me think about how large the earth might look if an exact copy of it was up there instead of the moon. Soon curiosity got the better of me, and I was animating!
So the basic idea is, each planet you see is the size it would appear in the sky if it shared an orbit with the moon, 380,000 kms from earth. I created this video in After Effects, and because of certain technical considerations had to keep the field of view at 62 degrees. That means the foreground element is not precisely to scale. I realized this after the fact and may update the video at some point in the future. All planets are to correct scale with one another in any case.
Please watch full screen in HD if possible. Oh! And please consider sharing with your friends on Twitter or Facebook.