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Why do the stars move differently than the planets?

Why do the stars move differently than the planets?

Key Differences Between Stars and Planets Stars have their own light, whereas planets do not have their own light, they reflect the sunlight that falls on the planets. Stars move in their own separate orbits with a high speed, but due to considerable distance, their motion can be seen after a very long time.

Which planets rotate in a direction different from that of the Earth?

Our neighboring planet Venus is an oddball in many ways. For starters, it spins in the opposite direction from most other planets, including Earth, so that on Venus the sun rises in the west.

Can stars rotate around planets?

For a star to orbit a planet, it would require a wandering star to be caught into a planet’s orbit. But it’s pretty sure that only the opposite can work. So… No, no star orbiting around planets.

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Why do the stars move across the sky?

This motion is due to the Earth’s rotation. As the spin of the Earth carries us eastward at almost one thousand miles per hour, we see stars rising in the East, passing overhead, and setting in the West. The Sun, Moon, and planets appear to move across the sky much like the stars.

What causes a planet to spin?

Round and round the planets spin. This is simply the result of the initial rotation of the cloud of gas and dust that condensed to form the Sun and planets. As gravity condensed this cloud, conservation of angular momentum increased the rotational speed and flattened the cloud out into a disk.

Do all stars spin in the same direction?

Most, but not all of the stars in our galaxy orbit the center of the galaxy in the same direction. Stars in the Galactic halo, which surrounds the center of the galaxy in a more-or-less spherical distribution, orbit more randomly. Some of the stars go around the center in the other direction.

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Why do stars rotate?

Stars are believed to form as the result of a collapse of a low-temperature cloud of gas and dust. As the cloud collapses, conservation of angular momentum causes any small net rotation of the cloud to increase, forcing the material into a rotating disk.