Comets are believed to be the oldest,
most primitive bodies in the solar system, possibly
comprised of some of the basic building blocks of life.
They contain the remains of materials used in the formation
of stars and planets, holding volatile, carbon-based
rich elements that are likely to provide clues about
the nature of the building blocks of our solar system.
Importantly, they may provide evidence that comets brought
water to the Earth, making possible life.
With the prospect of comets offering this treasure house
of ancient information, there is significant anticipation
about what findings scientists will be able to extrapolate
from a firsthand examination of cometary materials.
Because the Stardust spacecraft will both return samples
of material from a comet, and provide real time in-flight
data about what it encounters, there is a real possibility
of scientific findings that will change the way we view
our origins.
The Stardust spacecraft will fly between about 63 to
93 miles (100 to 148 km) in front of the nucleus, and
through the halo of gases and dust at the head of comet
Wild 2. During this passage the spacecraft will collect
dust and volatiles. A volatile is material difficult
to capture or hold permanently. The comet samples are
expected to be made up of ancient pre-solar interstellar
grains and nebular condensates that were incorporated
into comets at the birth of the solar system.
Discovery is an ongoing NASA program
offering the scientific community opportunities for
more frequent, high quality scientific investigations
using innovative management approaches. It seeks to
keep performance high and expenses low by using new
technologies, costing less than $150 (FY92$) million
to build and are joint efforts with industry, small
businesses and universities.
Stardust is the fourth NASA Discovery mission to be
chosen to follow Mars Pathfinder, Near Earth Asteroid
Rendezvous (NEAR) and the Lunar Prospector.
Explore the Stardust web site for
more detailed Mission
and Science information. For a discussion of the technologies
used in this mission, including aerogel, visit the Stardust
Technology page.
Last updated November
26, 2003 |
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