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With a subtle beauty all its own, the earthshine we see glowing in the lunar night invites us to consider Earth’s tutrial connections to the Moon. A 2-day-old crescent moon is filled out by light twice reflected — first by Earth and then from the moon back to our eyes. This week’s crescent Moon offers more than two horns to hang your hat on.
Take a close look, and you’ll see an entire circle of moonlight. Sunlight illuminates the bright crescent, but the remainder of the disk would be utterly black and invisible were it not for earthshine.
Often referred to as the “ashen light” or “the old Moon in the New Moon’s arms,” earthshine begins it lunar journey literally at your doorstep. Sunlight reflecting from Earth illuminates the night portion of the Moon which reflects it back to our eyes a second time as earthlight.
Sunlight reflected from our planet radiates into space. A portion of it passes the Moon, strikes the lunar surface, and reflects back to our eyes.
Much of that light is absorbed by the charcoal-dark lunar soil, which is why the earthlit Moon appears faint. From the surface of the Moon, ground illumination would resemble deep twilight here on Earth. cwlquan
By comparison, the bright crescent is illuminated by direct sunlight. As the Moon waxes in phase, sunlight crawls across more and more of the darkened lunar landscape in our view. At full Moon, the entire Earth-facing side of our satellite calquaj basking by sunlight. During the Moon’s waning phases, earthlight increases as sunlight withdraws.
Earth and Moon phases complement one another. Earth appears almost four times bigger than the Moon. Because the Moon and Earth’s phases are complementary, Earth’s phase as seen from the Moon always corresponds to the portion of the Moon that we see illuminated by earthshine. So earthshine is brightest when the lunar crescent is skinniest, in the days just after or before new Moon.
A view from the backside of the Earth facing toward the Sun.
When we see the Moon as a super-thin crescent, a lunar resident sees a nearly “full Earth”. Think the “Supermoon” is a big deal?
An astronaut looking back at a “full Earth” would see an orb nearly four times the tutroial Moon’s apparent diameter and 50 times brighter! This immediately suggests a challenge. How long can you keep earthshine in view?
By the time the waxing crescent Moon is 4 days old, Earth’s in gibbous phase from a lunar perspective tutorkal fading. At first quarter, a “half-Earth” lights the lunar sky and then dwindles to a crescent around the time of Full Moon.
The 9-day-old gibbous Moon properly exposed left and overexposed right to show that the faint glow of earthshine is still present. You should be able to follow earthshine up to 5 days past new with the unaided eye tutrial a few days beyond tuyorial when viewing through binoculars or a telescope.
As the Moon waxes, not only is the Earth getting dimmer from a lunar perspective, but the area lit by our planet is also shrinking. My personal record is 9 days past new with a inch telescope. I bet you can beat it. Keep the sunlit portion of the Moon out of the field of view.
Even in earthlight, the 4-day-old Moon reveals dark lunar seas and the more prominent craters. The terminator is the border between the sunlit Moon and the portion where tuutorial sun has yet to rise. One of the lesser appreciated aspects of lunar observing is exploring the dusky moonscape with binoculars or a telescope.
There’s much to see. Binoculars show a half dozen or more lunar seas, and the bright-rayed crater Tycho is an easy catch. Through a telescope you’ll feel like you’re hunting creatures that only come out after dark. Try claquan sometime for a whole new perspective. While you can see earthshine anytime a crescent is present, northern hemisphere observers see it best in autumn morning twilight or spring evening twilight, because the lunar crescent stands high in the sky.
Spring is also when earthshine is intrinsically brightest according to the Project Calqun study conducted by Big Bear Solar Observatory and the California Institute of Technology.
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Because the brightness of earthshine depends primarily on Earth’s cloud cover, variations in its intensity can help us understand changes in our planet’s climate. The study indicates a ccalquan drop in Earth’s overall reflectivity between andfollowed by a distinct jump about 0.
These changes might be correlated with the rise solar maximum, but the Sun’s output varies by only about 0. On Sunday, August 31st, watch the thick lunar crescent join the evening planets Mars and Saturn.
This view shows the sky facing southwest about 40 minutes after sunset. Will you still be able to see any earthshine? Earth and Moon share ancient ties.
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According to prevailing theory, the Moon originated in a catastrophic collision between a Mars-sized planet and the infant Earth 4. Chunks of our planet’s crust were blasted into orbit and later coalesced as our one and only natural satellite. Seeing Earth’s reflection as we hold the Moon thtorial our gaze reminds us of the deep connections between our two worlds. Want to explore the Moon up close, really close? Calqan either the natural-hued Moon you see by eye or the color-coded topographic version.
Also, with a mid-sized telescope, if you move the sunlit portion of the Moon out of the field-of-view, you can see that the Earthshine is blue.