Twenty-four meteorites have been identified as coming from Mars. How
do they (scientists) know that?
These meteorites are sometimes called SNC (pronounced, `snick')
for the first three of these types found (Shergotty, Nahla and
Chassigny, found > 100 years ago).
How did rocks from Mars get here? Impacts drove them off
with great velocity from the Mars surface (need 5.4 km/s to escape
Mars' surface).
What have they told us? A few show water in them. Others
show crystals or clay sediments, from interaction
with water. Comparing the ages of the rocks with the gases
contained, it tells us about the development of Mars' atmosphere,
and how it lost its light elements quickly, a different evolution
than occurred on Earth.
Meteorites from Mars
While we've been to Mars with the Viking Mission
and sampled the soil, no mission has returned with rocks from
Mars. Luckily, nature has brought a few
to us! This has given us crucial information. To the right
is the famous Martian Meteorite, ALH84001 (we'll go over this
more next week)..
1) They are very young igneous rocks, < 1.3 b.y.o.
Asteroid/Comet meteorites formed when the Solar System formed
(4.5 b.y.o.).
2) Since they represent recent formation, they must have
come from a planet which could support volcanism in the
last billion years. Only Venus, Earth, and
Mars are big enough to still have internal Heat. Why MARS? Gases trapped in a few of these meteorites
show the exact same unique isotopic
ratios as found in Mars' atmosphere by Viking mission --->