The
transit tomorrow will allow us to gain information about the
atmosphere of Venus. We will not get a chance to do it this way for
a long time although space based probes can solve that soon enough.
In the meantime we will get some welcome detail.
The
view itself in a scope should be excellent and even spectacular and
if you are set up for it very worthwhile. Hopefully we can get a
good video.
Note
my insertion in the text below.
June 4, 2012: When
Venus transits the sun on June 5th and 6th, an armada of spacecraft
and ground-based telescopes will be on the lookout for something
elusive and, until recently, unexpected: The Arc of Venus.
"I was
flabbergasted when I first saw it during the 2004 transit,"
recalls astronomy professor Jay Pasachoff of Williams College. "A
bright, glowing rim appeared around the edge of Venus soon after it
began to move into the sun."
For a brief instant,
the planet had turned into a "ring of fire."
Researchers now
understand what happened. Backlit by the sun, Venus's atmosphere
refracted sunlight passing through layers of air above the planet's
cloudtops, creating an arc of light that was visible in backyard
telescopes and spacecraft alike.
It turns out,
researchers can learn a lot about Venus by observing the arc. Indeed,
it touches on some of the deepest mysteries of the second planet.
"We do not
understand why our sister planet's atmosphere evolved to be so
different than Earth's," explains planetary scientist Thomas
Widemann of the Observatoire de Paris.
Earth and Venus are
similar distances from the sun, are made of the same basic materials,
and are almost perfect twins in terms of size. Yet the two planets
are wrapped in stunningly dissimilar blankets of air. Venus's
atmosphere is almost 100 times more massive than Earth's and consists
mainly of CO2, a greenhouse gas that raises the surface temperature
to almost 900°F. Clouds of sulfuric acid tower 14 miles high and
whip around the planet as fast as 220 mph. A human being transported
to this hellish environment would be crushed, suffocate, desiccate,
and possibly ignite.
[This
is readily explained by a recent emergence of Venus from Jupiter and
its limited subsequent cooling. Such recent emergence also explains
the Red Spot on Jupiter. Note that Jupiter is a mass collector and
ejector as a result of its size and rotational speed. It is my
conjecture that Jupiter produced all the planets save Venus early on
as it passed in and out of the stability zone caused by the
accumulation of mass. The math for this was published back in the
sixties]
For the most part,
planetary scientists have no idea how Venus turned out this way.
"Our models and
tools cannot fully explain Venus, which means we lack the tools for
understanding our own planet," points out Widemann. "Caring
about Venus is caring about ourselves."
One of the biggest
mysteries of Venus is super-rotation. The whole atmosphere circles
the planet in just four Earth days, much faster than the planet's
spin period of 243 days. "The dynamics of super-rotation are
still a puzzle despite a wealth of data from landmark missions such
as NASA's Pioneer Venus, Russia's Venera and VEGA missions, NASA's
Magellan and more recently ESA's Venus Express."
This is where the Arc
of Venus comes in. The brightness of the arc reveals the
temperature and density structure of Venus's middle atmosphere, or
"mesosphere," where the sunlight is refracted. According to
some models, the mesosphere is key to the physics of super-rotation.
By analyzing the lightcurve of the arc, researchers can figure out
the temperature and density of this critical layer from pole to pole.
When the arc appeared
in 2004, the apparition took astronomers by surprise; as a result,
their observations were not optimized to capture and analyze the
fast-changing ring of light.
This time, however,
they are ready. Together, Pasachoff and Widemann have organized a
worldwide effort to monitor the phenomenon on June 5th, 2012. "We're
going to observe the arc using 9 coronagraphs spaced around the
world," says Pasachoff. "Observing sites include Haleakala,
Big Bear, and Sacramento Peak. Japan's Hinode spacecraft and NASA's
Solar Dynamics Observatory will also be gathering data."
Pasachoff has some
advice for amateur astronomers who wish to observe the arc. "The
best times to look are ingress and egress--that is, when the disk of
Venus is entering and exiting the sun. Ingress is between 22:09 and
22:27 UT on June 5th; egress occurs between 04:32 and 04:50 UT. Be
sure your telescope is safely filtered. Both white light and H-alpha
filters might possibly show the arc."
Enjoy the show!
1 comment:
I appreciate your sharing this information about the arc of Venus.
In the writings of Charles Fort, there are more than a few notes about how the planet's closest point of rotation towards Earth correlates to strange obversations of substances falling out of the sky.
My own observation of the transits, particularly those of 1882 and 2004, respectively, is that two of the worst natural disasters in record on this planet were preceded by a matter of months by a Transit of Venus. Both events were catastrophic simply because of the consequential oceanic disturbances following them. The eruption of Krakatoa began May 20, 1883 and culminated in its paroxysmal stage Aug. 26. An earthquake (or oceanquake) on the floor of the Andaman Sea Dec. 26, 2004 likewise caused a major tsunami. I would not be surprised in the months ahead if another similar event, possibly in the same part of the world, were to transpire.
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