Four keys to understanding moon phases


The location of the sun with respect to the moon determines the moon phase in your night sky. Image via Ask.com

Artist’s concept of the moon, Earth and sun aligned in space. Image via Ask.com

Why does the moon seem to change its shape every night? Why can I see the moon in the daytime?

The answer to both questions is the same. It’s that the moon is a world in space, just as Earth is. Like Earth, the moon is always half illuminated by the sun; the round globe of the moon has a day side and a night side. From our earthly vantage point, as the moon orbits around Earth, we see varying fractions of its day and night sides. These are the changing phases of the moon. And the moon is in the daytime sky about half the time. It’s just that it’s sometimes it’s so near the sun we don’t notice it. How can you understand moon phases? Here are four things to remember:

1. When you see the moon, think of the whereabouts of the sun

2. The moon rises in the east and sets in the west, each and every day

3. The moon takes about a month (one moonth) to orbit the Earth

4. The moon’s orbital motion is toward the east

Moon phase composite via Fred Espenak. Read more about this image.

Moon phase composite via Fred Espenak. Read more about this image.

1. When you see the moon, think of the whereabouts of the sun. After all, it’s the sun that’s illuminating and creating the dayside of the moon.

Moon phases depend on where the moon is with respect to the sun in space. For example, do you see which moon phase is being shown in the illustration above? The answer is, it’s a full moon. The moon, Earth and sun are aligned with Earth in the middle. The moon’s fully illuminated half – its dayside – faces Earth’s night side. That’s always the case on the night of a full moon.

Don’t just take our word for it. Go outside. No matter what phase of the moon you see in your sky, think about where the sun is. It’ll help you begin to understand why the moon you see is in that particular phase.

The spin of the Earth causes the moon - like the sun - to rise in the east and set in the west each day. Image via Martin Cleburne's excellent article Where is the Moon?

Earth’s daily spin causes the moon – like the sun – to rise in the east and set in the west each day. Image via Martin Clebourne’s article Where is the Moon?

2. The moon rises in the east and sets in the west, each and every day. It has to. The rising and setting of all celestial objects is due to Earth’s continuous daily spin beneath the sky.

Just know that – when you see a thin crescent moon in the west after sunset – it’s not a rising moon. Instead, it’s a setting moon.

At the same time, though …

3. The moon takes about a month (one moonth) to orbit the Earth. Although the moon rises in the east and sets in the west each day (due to Earth’s spin), it’s also moving on the sky’s dome each day due to its own motion in orbit around Earth.

This is a slower, less noticeable motion of the moon. It’s a motion in front of the fixed stars. If you just glance at the moon one evening – and see it again a few hours later – you’ll notice it has moved westward. That westward motion is caused by Earth’s spin.

The moon’s own orbital motion can be detected in the course of a single night, too. But you have to watch the moon closely, with respect to stars in its vicinity, over several hours.

The moon’s eastward, orbital motion is easiest to notice from one day (or night) to the next. It’s as though the moon is moving on the inside of a circle of 360 degrees. The moon’s orbit carries it around Earth’s sky once a month, because the moon takes about a month to orbit Earth.

So that the moon moves – with respect to the fixed stars – by about 12-13 degrees each day.

The moon's orbital motion carries it to the east in Earth's sky. Image via cseligman.com.

The moon’s orbital motion carries it eastward in Earth’s sky. Image via cseligman.com.

4. The moon’s orbital motion is toward the east. Each day, as the moon moves another 12-13 degrees toward the east on the sky’s dome, Earth has to rotate a little longer to bring you around to where the moon is in space.

Thus the moon rises, on average, about 50 minutes later each day.

The later and later rising times of the moon cause our companion world to appear in a different part of the sky at each nightfall for the two weeks between new and full moon.

Then, in two weeks after full moon, you’ll find the moon rising later and later at night.

We have more details on individual moon phases at the links below. Follow the links to learn more about the various phases of the moon.

Waxing Crescent
First Quarter
Waxing Gibbous
Full Moon
Waning Gibbous
Last Quarter
Waning Crescent
New Moon

… and here are the names of all the full moons.

Earth and moon, via NASA

Earth and moon, via NASA

Bottom line: Why the moon waxes and wanes in phase. Four keys to understanding moon phases. Links to descriptions of the various phases of the moon.



from EarthSky http://ift.tt/1iYdhDd
The location of the sun with respect to the moon determines the moon phase in your night sky. Image via Ask.com

Artist’s concept of the moon, Earth and sun aligned in space. Image via Ask.com

Why does the moon seem to change its shape every night? Why can I see the moon in the daytime?

The answer to both questions is the same. It’s that the moon is a world in space, just as Earth is. Like Earth, the moon is always half illuminated by the sun; the round globe of the moon has a day side and a night side. From our earthly vantage point, as the moon orbits around Earth, we see varying fractions of its day and night sides. These are the changing phases of the moon. And the moon is in the daytime sky about half the time. It’s just that it’s sometimes it’s so near the sun we don’t notice it. How can you understand moon phases? Here are four things to remember:

1. When you see the moon, think of the whereabouts of the sun

2. The moon rises in the east and sets in the west, each and every day

3. The moon takes about a month (one moonth) to orbit the Earth

4. The moon’s orbital motion is toward the east

Moon phase composite via Fred Espenak. Read more about this image.

Moon phase composite via Fred Espenak. Read more about this image.

1. When you see the moon, think of the whereabouts of the sun. After all, it’s the sun that’s illuminating and creating the dayside of the moon.

Moon phases depend on where the moon is with respect to the sun in space. For example, do you see which moon phase is being shown in the illustration above? The answer is, it’s a full moon. The moon, Earth and sun are aligned with Earth in the middle. The moon’s fully illuminated half – its dayside – faces Earth’s night side. That’s always the case on the night of a full moon.

Don’t just take our word for it. Go outside. No matter what phase of the moon you see in your sky, think about where the sun is. It’ll help you begin to understand why the moon you see is in that particular phase.

The spin of the Earth causes the moon - like the sun - to rise in the east and set in the west each day. Image via Martin Cleburne's excellent article Where is the Moon?

Earth’s daily spin causes the moon – like the sun – to rise in the east and set in the west each day. Image via Martin Clebourne’s article Where is the Moon?

2. The moon rises in the east and sets in the west, each and every day. It has to. The rising and setting of all celestial objects is due to Earth’s continuous daily spin beneath the sky.

Just know that – when you see a thin crescent moon in the west after sunset – it’s not a rising moon. Instead, it’s a setting moon.

At the same time, though …

3. The moon takes about a month (one moonth) to orbit the Earth. Although the moon rises in the east and sets in the west each day (due to Earth’s spin), it’s also moving on the sky’s dome each day due to its own motion in orbit around Earth.

This is a slower, less noticeable motion of the moon. It’s a motion in front of the fixed stars. If you just glance at the moon one evening – and see it again a few hours later – you’ll notice it has moved westward. That westward motion is caused by Earth’s spin.

The moon’s own orbital motion can be detected in the course of a single night, too. But you have to watch the moon closely, with respect to stars in its vicinity, over several hours.

The moon’s eastward, orbital motion is easiest to notice from one day (or night) to the next. It’s as though the moon is moving on the inside of a circle of 360 degrees. The moon’s orbit carries it around Earth’s sky once a month, because the moon takes about a month to orbit Earth.

So that the moon moves – with respect to the fixed stars – by about 12-13 degrees each day.

The moon's orbital motion carries it to the east in Earth's sky. Image via cseligman.com.

The moon’s orbital motion carries it eastward in Earth’s sky. Image via cseligman.com.

4. The moon’s orbital motion is toward the east. Each day, as the moon moves another 12-13 degrees toward the east on the sky’s dome, Earth has to rotate a little longer to bring you around to where the moon is in space.

Thus the moon rises, on average, about 50 minutes later each day.

The later and later rising times of the moon cause our companion world to appear in a different part of the sky at each nightfall for the two weeks between new and full moon.

Then, in two weeks after full moon, you’ll find the moon rising later and later at night.

We have more details on individual moon phases at the links below. Follow the links to learn more about the various phases of the moon.

Waxing Crescent
First Quarter
Waxing Gibbous
Full Moon
Waning Gibbous
Last Quarter
Waning Crescent
New Moon

… and here are the names of all the full moons.

Earth and moon, via NASA

Earth and moon, via NASA

Bottom line: Why the moon waxes and wanes in phase. Four keys to understanding moon phases. Links to descriptions of the various phases of the moon.



from EarthSky http://ift.tt/1iYdhDd

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