Explanation:
The Sun set on
Friday
the 13th as a full Honey Moon rose,
captured in this well-planned time-lapse sequence.
Lisbon, Portugal's Christ the King monument
is in the foreground, about 6 kilometers distant from
camera and telephoto lens.
During the days surrounding today's
solstice (June 21, 10:51 UT) the Sun
follows its highest arc through northern hemisphere skies as it travels
along the ecliptic plane.
At night the ecliptic plane is low, and
the Full Moon's path close to the ecliptic was also low,
the rising Moon separating more slowly from the distant horizon.
Northern moon watchers were likely to experience the mysterious
Moon Illusion,
the lunar orb
appearing impossibly large while near the horizon.
But the photo sequence shows the Moon's
apparent size did not
not change at all.
Its light was initially scattered by the long line-of-sight through
the atmosphere though, and a deeper reddened color
gave way to a paler gold as the Full Moon rose
into the night.
Explanation:
June's Full Moon (full phase on June 13, 0411 UT) is
traditionally known
as the Strawberry Moon or Rose Moon.
Of course those names might also describe the
appearance of this Full Moon, rising last month
over the small Swedish village of Marieby.
The Moon looks large in the image because the scene was
captured with a long focal length lens from a place
about 8 kilometers from the foreground houses.
But just by eye a Full Moon rising, even on
Friday
the 13th, will appear to loom impossibly large
near the horizon.
That effect has long been recognized as
the
Moon Illusion.
Unlike the magnification provided by a telescope or telephoto lens,
the cause
of the Moon illusion is still poorly understood and
not explained
by atmospheric
optical effects, such as scattering and refraction.
Those effects do produce
the Moon's blushing color and ragged edge also seen
in the photograph.
Explanation:
What caused this outburst of V838 Mon?
For reasons unknown, star V838 Mon
suddenly became one of the brightest stars in the entire
Milky Way Galaxy.
Then, just a few months later, it faded.
A stellar flash like this has never been seen before --
supernovas
and novas expel a tremendous amount of matter out into space.
Although the V838 Mon flash appeared to expel some material into space, what is seen in the
above eight-frame movie, interpolated for smoothness, is actually an outwardly moving
light echo of the flash.
The actual time-span of the
above movie
is from 2002, when the flash was first recorded, to 2006.
In a light echo, light from the flash is
reflected by successively more distant ellipsoids in the complex array of ambient
interstellar dust
that already surrounded the star.
Currently, the
leading model for
V838's
outburst was the orbital decay and subsequent merging of two relatively normal stars.
V838 Mon lies about 20,000
light years away toward the
constellation of
Monoceros, while the largest
light echo above spans about
six light years in diameter.
Four Lasers over Mauna Kea Image Credit & Copyright: JasonChu
(IfA Manoa)
Explanation:
Are lasers from giant telescopes being used to attack the Galactic center?
No.
Lasers shot
from telescopes are now commonly used to help increase the accuracy of astronomical observations.
In some sky locations, Earth atmosphere-induced
fluctuations in starlight can indicate how the
air mass over a telescope is changing,
but many times no bright star exists in the
direction where atmospheric information is needed.
In these cases, astronomers create an
artificial star where they need it -- with a
laser.
Subsequent observations of the
artificial laser guide star can reveal information
so detailed about the blurring effects of the
Earth's atmosphere that much of this
blurring can be removed by rapidly flexing the mirror.
Such
adaptive optic techniques allow
high-resolution ground-based observations of
real stars,
planets, and
nebulae.
Pictured above, four telescopes on
Mauna Kea,
Hawaii,
USA are being used simultaneously
to study the center of our Galaxy and so all use a laser to create an artificial star nearby.
