Its very slow, despite orbiting the sun in a very quick time. it rotates once every 58.6 days relative to background stars.
Jupiter has the fastest rotation rate of any planet in our solar system, completing a full rotation on its axis in about 9.9 hours.
A comet's rate of rotation can vary depending on its size and composition. Some comets can complete one rotation in a few hours, while others may take several days. Rotation rates are typically determined by observing changes in a comet's brightness as it rotates.
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Zero at the poles, about 1000 mph at the equator.
The Moon is tidally locked to Earth, meaning it rotates on its axis at the same rate it orbits Earth, resulting in the same side always facing us. In contrast, Earth rotates at a faster rate and does not exhibit tidal locking with the Moon.
Mercury rotates in about 58.65 Earth days.
Mercury is the smallest planet compared to the other ones
It's 2/3 of its orbital period (of 88 days).58 and 2/3 days.
Toledo Mercurys was created in 1947.
Toledo Mercurys ended in 1962.
mercurys period number is 80
The rotation rate at the equator of the Sun is approximately 25 days, meaning that it takes about 25 days for the Sun to complete one full rotation at its equator.
Jupiter has the fastest rotation rate of any planet in our solar system, completing a full rotation on its axis in about 9.9 hours.
mercurys surface material is made out of nothing but craters
The length of a planet's day is directly related to its rate of rotation on its axis. A faster rate of rotation results in a shorter day, while a slower rate of rotation leads to a longer day. This relationship is determined by the planet's mass and distribution of mass.
The rotation rate of Jupiter's core was determined by observing the planet's magnetic field. Changes in the magnetic field, detected by spacecraft like Juno, provided clues about the core's rotation rate. By studying these magnetic field variations, scientists were able to infer the rotation of Jupiter's core.
The Earth's rotation rate (rhr) affects the strength of the magnetic field surrounding the planet. A faster rotation rate can lead to a stronger magnetic field, while a slower rotation rate can result in a weaker magnetic field. This relationship is due to the movement of the Earth's molten iron core, which generates the magnetic field through a process called the dynamo effect.