howstuffworks: How the Moon Works When early astronomers looked...

howstuffworks:

How the Moon Works
When early astronomers looked at the moon, they saw dark spots that they believed were seas (maria) and lighter regions that they believed was land (terrae). Aristotle’s view, which was the accepted theory at the time, was that the moon was a perfect sphere and that the Earth was the center of the universe.
When Galileo looked at the moon with a telescope, he saw a different image — a rugged terrain of mountains and craters. He saw how its appearance changed during the month and how the mountains cast shadows that allowed him to calculate their height. Galileo concluded that the moon was much like Earth in that it had mountains, valleys and plains. His observations ultimately contributed to the rejection of Aristotle’s ideas and the Earth-centered universe model.
Every night, the moon shows a different face in the night sky. On some nights we can see its entire face, sometimes it’s partial, and on others it isn’t visible at all. These phases of the moon aren’t random — they change throughout the month in a regular and predictable way.
As the moon travels in its 29-day orbit, its position changes daily. Sometimes it’s between the Earth and the sun and sometimes it’s behind us. So a different section of the moon’s face is lit up by the sun, causing it to show different phases.
Over the billions of years of the moon’s existence, it has moved farther away from the E­arth, and its rate of rotation has also slowed. The moon is tidally locked with the Earth, which means that the Earth’s gravity “drags” the moon to rotate on its axis. This is why the moon rotates only once per month and why the same side of the moon always faces the Earth.
Every day, the Earth experiences tides, or changes in the level of its oceans. They’re caused by the pull of the moon’s gravity. There are two high tides and two low tides every day, each lasting about six hours.
The moon’s gravitational force pulls on water in the oceans and stretches the water out to form tidal bulges in the ocean on the sides of the planet that are in line with the moon. The moon pulls water on the side nearest it, which causes a bulge toward the moon. The moon pulls on the Earth slightly, which drags the Earth away from the water on the opposite side, making another tidal bulge there. So, the areas of the Earth under the bulge experience high tide, while the areas on the thin sides have low tide. As the Earth rotates underneath the elongated bulges, this creates high and low tides about 12 hours apart.
The moon also stabilizes the Earth’s rotation. As the Earth spins on its axis, it wobbles. The moon’s gravitational effect limits the wobble to a small degree. If we had no moon, the Earth might move almost 90 degrees off its axis, with the same motion that a spinning top has as it slows down.
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Tonight’s PIE is on space! Which coincidentally is where the moon is.