[meteorite-list] Moon... tail... make up your own adolsecent jokes, people!

From: Darren Garrison <cynapse_at_meteoritecentral.com>
Date: Sun, 20 Apr 2008 16:50:58 -0400
Message-ID: <1van04lb00ghrd6f4e3tpr7ujdqccrlvjl_at_4ax.com>

http://www.nasa.gov/topics/moonmars/features/magnetotail_080416.html

The Moon and the Magnetotail04.16.08 The moon. Credit: NASA Behold the full
moon. Ancient craters and frozen lava seas lie motionless under an airless sky
of profound quiet. It?s a serene, slow-motion world where even a human footprint
may last millions of years. Nothing ever seems to happen there, right?

Wrong.

NASA-supported scientists have realized that something happens every month when
the moon gets a lashing from Earth?s magnetic tail.

?Earth?s magnetotail extends well beyond the orbit of the moon and, once a
month, the moon orbits through it,? says Tim Stubbs, a University of Maryland
scientist working at the Goddard Space Flight Center. ?This can have
consequences ranging from lunar ?dust storms? to electrostatic discharges.?

Yes, Earth does have a magnetic tail. It is an extension of the same familiar
magnetic field we experience when using a Boy Scout compass to find our way
around Earth?s surface. Our entire planet is enveloped in a bubble of magnetism,
which springs from a molten dynamo in Earth?s core. Out in space, the solar wind
presses against this bubble and stretches it, creating a long ?magnetotail? in
the downwind direction.

Anyone can tell when the moon is inside the magnetotail. Just look: ?If the moon
is full, it is inside the magnetotail,? says Stubbs. ?The moon enters the
magnetotail three days before it is full and takes about six days to cross and
exit on the other side.?

It is during those six days that strange things can happen.

During the crossing, the moon comes in contact with a gigantic ?plasma sheet? of
hot charged particles trapped in the tail. The lightest and most mobile of these
particles, electrons, pepper the moon?s surface and give the moon a negative
charge.

On the moon?s dayside this effect is counteracted to a degree by sunlight: UV
photons knock electrons back off the surface, keeping the build-up of charge at
relatively low levels. But on the nightside, in the cold lunar dark, electrons
accumulate and surface voltages can climb to hundreds or thousands of volts.

Imagine what it feels like to be a sock pulled crackling from a dryer.
Astronauts on the moon during a magnetotail crossing might be able to tell you.
Walking across the dusty charged-up lunar terrain, the astronauts themselves
would gather a load of excess charge. Touching another astronaut, a doorknob, a
piece of sensitive electronics -- any of these simple actions could produce an
unwelcome discharge. ?Proper grounding is strongly recommended,? says Stubbs.

The ground, meanwhile, might leap into the sky. There?s growing evidence that
fine particles of moondust might actually float, ejected from the lunar surface
by electrostatic repulsion. This could create a temporary nighttime atmosphere
of dust ready to blacken spacesuits, clog machinery, scratch faceplates
(moondust is very abrasive) and generally make life difficult for astronauts.

Stranger still, moondust might gather itself into a sort of diaphanous wind.
Drawn by differences in global charge accumulation, floating dust would
naturally fly from the strongly-negative nightside to the weakly-negative
dayside. This ?dust storm? effect would be strongest at the moon?s terminator,
the dividing line between day and night.

Much of this is pure speculation, Stubbs cautions. No one can say for sure what
happens on the moon when the magnetotail hits, because no one has been there at
the crucial time. ?Apollo astronauts never landed on a full moon and they never
experienced the magnetotail.?

The best direct evidence comes from NASA?s Lunar Prospector spacecraft, which
orbited the moon in 1998-99 and monitored many magnetotail crossings. During
some crossings, the spacecraft sensed big changes in the lunar nightside
voltage, jumping ?typically from -200 V to -1000 V,? says Jasper Halekas of UC
Berkeley who has been studying the decade-old data.

"It is important to note,? says Halekas, ?that the plasma sheet (where all the
electrons come from) is a very dynamic structure. The plasma sheet is in a
constant state of motion, flapping up and down all the time. So as the moon
orbits through the magnetotail, the plasma sheet can sweep across it many times.
Depending on how dynamic things are, we can encounter the plasma sheet many
times during a single pass through the magnetotail with encounters lasting
anywhere from minutes to hours or even days.?

?As a result, you can imagine how dynamic the charging environment on the moon
is. The moon can be just sitting there in a quiet region of the magnetotail and
then suddenly all this hot plasma goes sweeping by causing the nightside
potential to spike to a kilovolt. Then it drops back again just as quickly.?

The roller coaster of charge would be at its most dizzying during solar and
geomagnetic storms. ?That is a very dynamic time for the plasma sheet and we
need to study what happens then,? he says.

What happens then? Next-generation astronauts are going to find out. NASA is
returning to the moon in the decades ahead and plans to establish an outpost for
long-term lunar exploration. It turns out they?ll be exploring the magnetotail,
too.

More Information:

Earth?s magnetotail isn?t the only source of plasma to charge the moon. Solar
wind can provide charged particles, too; indeed, most of the time, the solar
wind is the primary source. But when the moon enters the magnetotail, the solar
wind is pushed back and the plasma sheet takes over. The plasma sheet is about
10 times hotter than the solar wind and that gives it more "punch" when it comes
to altering the charge balance of the moon's surface. Two million degree
electrons in the plasma sheet race around like crazy and many of them hit the
moon's surface. Solar wind electrons are relatively cool at only 140 thousand
degrees, and fewer of them zip all the way down to the shadowed surface of the
moon's nightside. Tony Phillips
NASA's Goddard Space Flight Center
Received on Sun 20 Apr 2008 04:50:58 PM PDT


Help support this free mailing list:



StumbleUpon
del.icio.us
reddit
Yahoo MyWeb