PIA04531: Earth and Moon as viewed from Mars
Original Caption Released with Image:
MGS MOC Release No. MOC2-368, 22 May 2003
Globe diagram illustrates the Earth's orientation as viewed from Mars (North and South America were in view).
Earth/Moon: This is the first image of Earth ever taken from another
planet that actually shows our home as a planetary disk. Because
Earth and the Moon are closer to the Sun than Mars, they exhibit phases,
just as the Moon, Venus, and Mercury do when viewed
from Earth. As seen from Mars by MGS on 8 May 2003 at 13:00 GMT (6:00 AM
PDT), Earth and the Moon appeared in the
evening sky. The MOC Earth/Moon image has been specially processed to allow
both Earth (with an apparent magnitude of -2.5) and
the much darker Moon (with an apparent magnitude of +0.9) to be visible
together. The bright area at the top of the image of Earth is
cloud cover over central and eastern North America. Below that, a darker
area includes Central America and the Gulf of Mexico. The
bright feature near the center-right of the crescent Earth consists of clouds
over northern South America. The image also shows the
Earth-facing hemisphere of the Moon, since the Moon was on the far side
of Earth as viewed from Mars. The slightly lighter tone of the
lower portion of the image of the Moon results from the large and conspicuous
ray system associated with the crater Tycho.
A note about the coloring process: The MGS MOC high resolution camera
only takes grayscale (black-and-white) images. To
"colorize" the image, a Mariner 10 Earth/Moon image taken in 1973
was used to color the MOC Earth and Moon picture. The
procedure used was as follows: the Mariner 10 image was converted from 24-bit
color to 8-bit color using a JPEG to GIF conversion
program. The 8-bit color image was converted to 8-bit grayscale and an associated
lookup table mapping each gray value of the image
to a red-green- blue color triplet (RGB). Each color triplet was root-sum-squared
(RSS), and sorted in increasing RSS value. These
sorted lists were brightness-to-color maps for the images. Each brightness
-to-color map was then used to convert the 8-bit grayscale
MOC image to an 8-bit color image. This 8-bit color image was then converted
to a 24-bit color image. The color image was edited
to return the background to black.
Image Credit:
NASA/JPL/Malin Space Science Systems