Lunar phase refers to the appearance of the illuminated portion of the Moon as seen by an
observer, usually on Earth. The lunar phases vary cyclically as the Moon orbits the Earth,
according to the changing geometry of the Earth, Moon, and Sun. One half of the lunar surface is
always illuminated by the Sun (except during lunar eclipses),
and is hence bright, but the portion of the illuminated hemisphere that is visible to an observer can vary from 100%
(full moon) to 0% (new moon). The boundary between the
illuminated and unilluminated hemispheres is called the terminator.
Overview
The lunar phase depends on the Moon's position in orbit around the Earth, and the Earth's position in orbit around the sun. This
diagram looks down on Earth from the north. Earth's rotation and the Moon's orbit are both counter-clockwise here. Sunlight is
coming in from the right, as indicated by the yellow arrows. From this diagram, we can see, for example, that the full moon will
always rise at sunset, and that the waning crescent moon is high overhead around 9:00 AM local time.
Lunar phases are the result of our eyes seeing the illuminated half of the Moon from different viewing geometries: they are
not caused by shadows of the Earth on the Moon that occur during a lunar eclipse. The Moon
exhibits different phases as the relative geometry of the Sun, Earth, and Moon change, appearing as a full moon when the Sun and Moon are on opposite sides of the Earth, and as a new
moon (also named dark moon) it is not visible at night when they are on the same side.
The phases of full moon and new moon are examples of syzygies, which occur when the Earth, Moon,
and Sun lie (approximately) in a straight line. The time between two full moons (or between successive occurrences of the same
phase) is about 29.53 days (29 days, 12 hours, 44 minutes) on average. This synodic month is
longer than the time it takes the Moon to make one orbit about the Earth with respect to
the fixed stars (the sidereal month), which is about 27.32 days. This difference is caused by the
fact that the Earth-Moon system is orbiting about the Sun at the same time the Moon is orbiting about the Earth. The actual time
between two syzygies is variable because the orbit of the Moon is elliptic and subject to various
periodic perturbations, which change the velocity of the Moon.
It might be expected that once every month when the Moon passes between Earth and the Sun during a new moon, its shadow would
fall on Earth causing a solar eclipse. Likewise, during every full moon, we might expect
the Earth's shadow to fall on the Moon, causing a lunar eclipse. We do not observe a solar
and lunar eclipse every month because the plane of the Moon's orbit around the Earth is tilted by about 5 degrees with respect to
the plane of Earth's orbit around the Sun. Thus, when new and full moons occur, the Moon usually lies to the north or south of a
direct line through the Earth and Sun. Although an eclipse can only occur when the Moon is
either new or full, it must also be positioned at (or very nearly at) the intersection of Earth's orbit plane about the Sun and
the Moon's orbit plane about the Earth (that is, at one of its nodes). This happens about
twice per year, and so there are between 4 and 7 eclipses in a calendar year. Most of these are quite insignificant; major
eclipses of the Moon or Sun are rather rare.
Names of lunar phases
Phases of the
Moon, as seen from the Northern Hemisphere.
The phases of the Moon have been given the following names, which are listed in sequential order:
| Phase |
Northern Hemisphere |
Southern Hemisphere |
| Dark Moon |
Not visible |
Not visible |
| New Moon |
Not visible, or traditionally, the first visible crescent of the Moon |
| Waxing Crescent Moon |
Right 1-49% visible |
Left 1-49% visible |
| First Quarter Moon |
Right 50% visible |
Left 50% visible |
| Waxing gibbous Moon |
Right 51-99% visible |
Left 51-99% visible |
| Full Moon |
Fully visible |
Fully visible |
| Waning gibbous Moon |
Left 51-99% visible |
Right 51-99% visible |
| Third Quarter Moon |
Left 50% visible |
Right 50% visible |
| Waning Crescent Moon |
Left 1-49% visible |
Right 1-49% visible |
|
|
|
Gibbous (red) and crescent (blue) shapes.
When the Sun and Moon are aligned on the same side of the Earth, the Moon is "new", and is not illuminated by the Sun. As the
Moon waxes (the amount of illuminated surface as seen from Earth is increasing), the lunar phases progress from new moon,
crescent moon, first-quarter moon, gibbous moon and full moon phases, before returning through the gibbous moon, third-quarter
moon, crescent moon and new moon phases. The terms old moon and new moon are interchangeable, although new moon is more common.
Half moon is often used to mean the first- and third-quarter moons.
Animation of the Moon as it cycles through its phases, as seen from the Northern Hemisphere. The apparent wobbling of the Moon is
known as
libration.
When a sphere is illuminated on one hemisphere and viewed from a different angle, the portion of the illuminated area that is
visible will have a two-dimensional shape defined by the intersection of an ellipse and circle (where the major axis of the
ellipse coincides with a diameter of the circle). If the half-ellipse is convex with respect to the half-circle, then the shape
will be gibbous (bulging outwards), whereas if the half-ellipse is concave with respect to the half-circle, then the shape will
be a crescent.
In the northern hemisphere, if the left side of the Moon is dark then the light
part is growing, and the Moon is referred to as waxing (moving towards a full moon). If the right side of the Moon is dark then
the light part is shrinking, and the Moon is referred to as waning (moving towards a new moon). Assuming that one is in the
northern hemisphere, the right portion of the Moon is the part that is always growing. The acronym mnemonic "DOC" represents
this: "D" is the waxing moon; "O" the full moon; and "C" the waning moon. (One phrase that can be used to remember this is
"Dog comes; Cat goes".) In the Southern hemisphere, this order is
reversed, and the mnemonic is "COD".
Calendar
-
The average calendrical month, which is 1/12 of a year, is about 30.4 days, while the Moon's phase (synodic) cycle repeats
every 29.53 days. Therefore the timing of the Moon's phases shifts by an average of about one day for each successive month. If
you photographed the Moon's phase every day for a month, starting in the evening after sunset, and repeating approximately 25
minutes later each successive day, ending in the morning before sunrise, you could create a composite image like the example
calendar below from May 8, 2005 to June 6, 2005. Note that there is no picture on May 20 since a picture would be taken before
midnight on May 19, and after midnight on May 21. For a similar reason, if you look at a calendar listing moon rise or set times,
there will be days where the moon never rises or sets.
See also
External links
This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)
