Io, the closest of the Galilean Moons has the fastest revolution with an orbital period on only 42.5 hours.
The moon's revolution is equal to its period of rotation. This means that we see the same side of the moon every day. Also, the moons position compared to the position of the sun makes the phases of the moon.
29.5 days.
It is the average time of the revolution of the moon around the earth with respect to a line joining the sun and the earth. It is the period the moon takes to pass through all its phases.
9326
They are precisely equal.
Io, the closest of the Galilean Moons has the fastest revolution with an orbital period on only 42.5 hours.
Rotation and Revolution.
there isn't a correct answer, but i suggest you take a look at NASA s website have a look at Moons, there should be a fact file on the moon Charon. Another viewpoint: I think there is a correct answer. Charon's period of revolution (around Pluto) is about 6.387 Earth days.
The moon's revolution is equal to its period of rotation. This means that we see the same side of the moon every day. Also, the moons position compared to the position of the sun makes the phases of the moon.
Neptune has 13 known moons and an orbital period of about 60190 Earth days.
27.32 Earth days27 1/3 days
16 moons
you use the moons movement and phases to tell time because of the seasons, rotation, and revolution
29.5 days.
No, they are have their own revolution periods.
Same as it's orbital period, about 27.32 days.