Your understanding is broadly correct, although I don't think "friction"
is quite the right word to describe the heating process for particles
smaller than about a centimeter. The mechanism of heating depends on the
particle size and on the mean free path of atmospheric molecules (and
therefore on height). For centimeter scale particles, most of the
heating is the result of creating a compressed gas zone along the
leading edge. For millimeter scale particles the heating involves
collisional processes. Not surprisingly, there's an intermediate range
where both processes are operating.
Chris
*******************************
Chris L Peterson
Cloudbait Observatory
http://www.cloudbait.com
On 1/25/2014 7:54 AM, Francesco Moser wrote:
Hi all!
I have a question for you regarding falling stars and fireballs!
Which is the physical process that heats a meteoroid during his travel through
the atmosphere?
Is the friction with the air molecules or the ram pressure of the shock wave in
front of the meteoroid?
I think, but maybe I'm wrong:
for the smaller meteoroids like the one that generate the falling stars the
main process is the friction, instead for the bigger meteoroid like the one
that generate meteorite on the ground or for example for a Space Ship like the
Space Shuttle the main process is the ram pressure ... I'm right?
Thanks a lot!!!
<x>x<x>x<x>
Francesco
______________________________________________
Visit the Archives at http://www.meteorite-list-archives.com
Meteorite-list mailing list
Meteorite-list@meteoritecentral.com
http://six.pairlist.net/mailman/listinfo/meteorite-list
