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What are the 2 movement of the planets?
The two primary movements of the planets are rotation and revolution. Rotation refers to the spinning of a planet on its axis, which causes day and night, while revolution is the orbiting of a planet around the Sun, defining its year. Both movements are fundamental to understanding the dynamics of our solar system and the changing positions of celestial bodies.
What spins on an axis?
Actually, just about any planet, star, and galaxy in the universe.
What type of movement do planets move in?
Planets move in elliptical orbits around the sun, as described by Kepler's laws of planetary motion. This movement is primarily governed by the gravitational force between the planets and the sun. Additionally, planets rotate on their axes, leading to the cycles of day and night. Their orbits are generally stable, but can be influenced by gravitational interactions with other celestial bodies.
Why do planets move across the night sky but stars don't?
The planets are closer. (They all move - and differently.)
How is the movement of objects in the night sky related to earth's rotation?
The movement of objects in the night sky, such as stars and planets, is primarily a result of Earth's rotation on its axis. As Earth rotates from west to east, celestial objects appear to move across the sky from east to west. This rotation causes the apparent daily motion of stars, with their positions changing slightly over time due to Earth's orbit around the Sun. Thus, the observed movement is a perspective effect of Earth's own movement through space.
Was the movement causes of day and night?
rotation
What will happen if planets don't have their own orbits?
they wouldn't go around the sun and they wouldn't have lights at night.
What does rotation cause?
day and night
Which kind of movement of the earth causes day and night?
The rotation of the Earth on its axis causes day and night. As the Earth spins, different parts of the planet are either facing towards the Sun (day) or away from the Sun (night), creating a cycle of light and darkness.
What are the 2 movement of the planets?
The two primary movements of the planets are rotation and revolution. Rotation refers to the spinning of a planet on its axis, which causes day and night, while revolution is the orbiting of a planet around the Sun, defining its year. Both movements are fundamental to understanding the dynamics of our solar system and the changing positions of celestial bodies.
What is one of the causes in daily varations in temperature on a planets surface?
The main factor is the planet's rotation that gives day and night.
How does night n day happen?
The Earth rotates and when that happens one area will come closer to the sun which causes day and the other area that turns from the sun causes night
What spins on an axis?
Actually, just about any planet, star, and galaxy in the universe.
What type of movement do planets move in?
Planets move in elliptical orbits around the sun, as described by Kepler's laws of planetary motion. This movement is primarily governed by the gravitational force between the planets and the sun. Additionally, planets rotate on their axes, leading to the cycles of day and night. Their orbits are generally stable, but can be influenced by gravitational interactions with other celestial bodies.
What are those white things at night in the sky?
Those white things in the sky happen to be stars which are balls of gasses, or they could be planets.
Why do planets move across the night sky but stars don't?
The planets are closer. (They all move - and differently.)
How is the movement of objects in the night sky related to earth's rotation?
The movement of objects in the night sky, such as stars and planets, is primarily a result of Earth's rotation on its axis. As Earth rotates from west to east, celestial objects appear to move across the sky from east to west. This rotation causes the apparent daily motion of stars, with their positions changing slightly over time due to Earth's orbit around the Sun. Thus, the observed movement is a perspective effect of Earth's own movement through space.
