Thread: Scientists accurately measure the 'edge of space'
View Single Post
  #1   Report Post  
Old April 11th 09, 06:24 AM posted to sci.environment,sci.physics,alt.culture.alaska,sci.geo.meteorology
Mike Vandeman[_5_] Mike Vandeman[_5_] is offline
external usenet poster
  
First recorded activity by Weather-Banter: Apr 2009
Posts: 11
Default Scientists accurately measure the 'edge of space'
April 10th, 2009
Scientists accurately measure the 'edge of space'
Posted by Chris Jablonski @ 3:25 pm

The fuzzy point where the earth’s atmosphere transitions into space has been
detected by an instrument developed by scientists at the University of
Calgary with “unprecedented detail”.

According to the team, space begins 118 km (73.3 miles) above Earth, which
confirms what other scientists consider the boundary or edge of space. It’s
a mere 10 miles off the Kármán line (100 km), which has been commonly
regarded as the boundary between atmosphere and outer space.

Science Daily reports that the instrument – called the Supra-Thermal Ion
Imager – was carried by a NASA rocket, JOULE-II, on Jan. 19, 2007, and
traveled to an altitude of about 200 kilometers above sea level and
collected data for the five minutes it was moving through the “edge of
space.”

There’s no such thing as a precise end to the Earth’s atmosphere since it
just progressively gets thinner as you go up. So let’s take a look at how
the instrument was able to make such a measurement.

David Knudsen, associate professor in the Department of Physics and
Astronomy at U of C and head of the Space Physics Division of the Institute
for Space Imaging Sciences (ISIS), explains; “When you drag a heavy object
over a surface, the interface becomes hot. In JOULE-II we were able to
measure directly two regions being dragged past each other, one being the
ionosphere — being driven by flows in space — and the other the earth’s
atmosphere.”

“It’s only the second time that direct measurements of charged particle
flows have been made in this region, and the first time all the
ingredients – such as the upper atmospheric winds – have been included,”
said Knudsen.

Until now, the major space powers simply defined the point at which the
earth stops and space begins as the lowest perigee attained by orbiting
space vehicles. The accuracy achieved by the the scientists opens the door
to further insight:

The results have given us a closer look at space, which is a benefit to pure
research in space science. But it also allows us to calculate energy flows
into the Earth’s atmosphere that ultimately may be able to help us
understand the interaction between space and our environment. That could
mean a greater understanding of the link between sunspots and the warming
and cooling of the Earth’s climate as well as how space weather impacts
satellites, communications, navigation, and power systems.

The results were published this week in a paper by Knudsen and his
colleagues in the Journal of Geophysical Research.

As for the price-tag, the Canadian Space Agency invested $422,000 in the
development of the Supra-Thermal Ion Imager instrument on JOULE-II.


Reply With QuoteReply With Quote