Oh, it's Rob Sparks, author of The Half Astrophysicist Blog:
In case you missed it, there's a cool picture of the Earth and Moon taken from Saturn. Apparently a bunch of us earthly homebodies decided to wave at the Cassini spacecraft as it took pictures of us.
"Hi, Mom!" |
On Earth, we're hit with a flux of about 1400 W/m2 of sunlight. Our bodies have an area of about one square meter, and I'll assume only 1/10 of the light that hits each of our bodies gets reflected out of the atmosphere. Since visible photons carry a few electron volts,1 we can estimate that 1020 photons leave each body every second. These photons will be distributed over a sphere with a radius equal to the distance to Saturn, approximately 1.2 billion kilometers. A small fraction of this sphere coincides with the Cassini's camera lens. Assuming it's like most digital cameras, the area of Cassini's lens should be roughly 10 square centimeters. That's about one part in 1028 of the total area covered by the photons. Assuming a shutter speed of one second, the probability that one of your photons will appear in the "Wave at Saturn" picture is about one in one-hundred million. Since the world contains 7 billion people, there's a pretty good chance at least one of humanity's photons is in the picture.
Aaron Santos is a physicist and author of the books How Many Licks? Or How to Estimate Damn Near Anything and Ballparking: Practical Math for Impractical Sports Questions. Follow him on Twitter at @aarontsantos.
[1] One electron volt is equivalent to 1.6×10-19 Joules.
Excellent Post, Aaron!
ReplyDeleteIf you've got the time, I'm sure I'm not the only geek who'd love to know how many photons in the IR our skin emits per second and/or during the night. Also, how many photons per second does an average sized primate/human emit simply by the nature of being above absolute zero?
If you've got even more time (and who doesn't?!), please correct me if any of the physics on our site/blog posts is incorrect! http://tesssla.com/ It's still a young'n =)