The Moon will pass last quarter phase, rising in the middle of the night and appearing prominent in the pre-dawn sky.
From Seattle, it will be visible in the morning sky, becoming accessible around 00:21, when it reaches an altitude of 7° above your eastern horizon. It will then reach its highest point in the sky at 06:18, 52° above your southern horizon. It will be lost to dawn twilight around 07:18, 50° above your south-western horizon.
At this time in its monthly cycle of phases, it appears almost exactly half illuminated.
As it progresses through this cycle, it is visible at different times of day. At last quarter, it rises in the middle of the night and appears high in the sky by dawn. It sets at around lunchtime. More information about the Moon's phases is available here.
A thin crescent
The months around the autumn equinox – September and October in the northern hemisphere – present the best opportunity to see a very thin crescent Moon immediately before sunrise in the days running up to new moon.
This comes about because the Moon appears higher in the dawn sky sooner after new moon in the autumn months as compared to other times of year.
At all times, the Moon lies close to a line across the sky called the ecliptic, which is shown in yellow in the planetarium above. This line traces the path that the Sun takes through the zodiacal constellations every year, and shows the plane of the Earth's orbit around the Sun. Since all the planets circle the Sun in almost exactly the same plane, they too move across the sky following the same line.
When the Moon is widely separated from the Sun, it is separated from it along the line of the ecliptic. But, at different times of year, the ecliptic meets the horizon at different angles at sunrise. This means that a certain number of days after new moon, the Moon appears at different altitudes above the horizon at different times of year.
At sunrise, the ecliptic makes its steepest angle to the horizon at the autumn equinox – in September in the northern hemisphere, and in March in the southern hemisphere. Conversely, it meets the horizon at its shallowest angle at the spring equinox. And so, very thin crescent moons are most visible in the dawn sky in the autumn.
The inclination of the ecliptic plane to the horizon at Seattle varies between 65° (sunrise at the autumn equinox) and 18° (sunrise at the spring equinox). On December 4, the ecliptic is inclined at 44° to the eastern dawn horizon.
The exact moment of last quarter
The exact moment of last quarter is defined as the time when the Moon's ecliptic longitude is exactly 90° away from the Sun's ecliptic longitude, as observed from the center of the Earth. However, the Moon does not appear in any way special at this instant in time, and a last quarter moon can be observed at any time in the pre-dawn sky.
At the moment it reaches last quarter, the Moon's distance from the Earth will be 394,000 km. Its celestial coordinates will be as follows:
|Object||Right Ascension||Declination||Constellation||Angular Size|
The coordinates above are given in J2000.0.
|The sky on 20 January 2022|
18 days old
All times shown in PST.
The circumstances of this event were computed using the DE430 planetary ephemeris published by the Jet Propulsion Laboratory (JPL).
This event was automatically generated by searching the ephemeris for planetary alignments which are of interest to amateur astronomers, and the text above was generated based on an estimate of your location.
|04 Dec 2004||– Moon at Last Quarter|
|11 Dec 2004||– New Moon|
|18 Dec 2004||– Moon at First Quarter|
|26 Dec 2004||– Full Moon|
Simulated image courtesy of Tom Ruen.