There is no real relationship, a planets spin depends on collisions it may have had in the past, rather than on its distance from the sun (which governs its orbital rotation time around the sun).
because of the sun
A planet's rotation is its spinning on its axis, which determines day and night cycles. Its revolution is its orbit around the sun, which determines its year length. Both rotation and revolution are independent of each other, but they work together to create the planet's overall movement and the changing seasons.
Yes, Venus has a retrograde rotation, which means it rotates on its axis in the opposite direction of its orbit around the Sun. However, Venus does not have a retrograde revolution, as it orbits the Sun in the same direction as the other planets in our solar system.
The gas giant planets have shorter rotation (day) periods compared to Earth. For example, Jupiter's rotation period is about 10 hours, while Earth's is about 24 hours. However, the gas giant planets have longer revolution (year) periods, as they are farther from the sun. For example, Jupiter's revolution period is about 12 Earth years, while Earth's is about 1 year.
The difference between the rotation and revoulution is that rotation is the spiinning of the planet on its axis and revoulution is the orbiting of the planet around the sun.
The difference between the rotation and revoulution is that rotation is the spiinning of the planet on its axis and revoulution is the orbiting of the planet around the sun.
The difference between the rotation and revoulution is that rotation is the spiinning of the planet on its axis and revoulution is the orbiting of the planet around the sun.
The planets rotate around their rotational axes and revolve around the sun.
The period of rotation for each of the planets is as follows - the sidereal rotation (rotation time against background stars); PlanetSidereal rotational periodMercury58.646225Venus-243.0187Earth0.99726957Mars1.02595675Jupiter0.41007Saturn0.426Uranus-0.71833Neptune0.67125
PENIS
orbit and rotation there is also a wobble or tilt that can fluctuate
well when something is orbiting a planet that means an object is basically circling the planet due to its gravitational pull. Rotation is the planets rotation not the object surrounding circling it.
they have different distances from the sun
Revolution and rotation are both movements of celestial bodies. Revolution refers to the orbit of a planet around the sun, while rotation is the spinning of a planet on its axis. They both affect the position and orientation of the planet in space.
The period of a planet's revolution is the time that it takes to complete one revolution around its axis of rotation relative to the background stars (also known as rotation period).
There is no real relationship, a planets spin depends on collisions it may have had in the past, rather than on its distance from the sun (which governs its orbital rotation time around the sun).