A planet completes one rotation on its axis in a period defined as a day, which is determined by the time it takes for a point on its surface to return to the same position relative to a distant star or the sun. This duration varies among planets due to differences in their rotational speeds and axial tilt. For instance, Earth takes approximately 24 hours to rotate once, while other planets, like Jupiter, complete a rotation in about 10 hours. The rotation influences the planet's day-night cycle and affects its climate and atmospheric dynamics.
The planet Saturn takes about 10 hours and 39 minutes for it to rotate on its axis. Since the planet does not rotate uniformly the time does vary.
A day on Earth is defined as the time it takes for the planet to complete one rotation on its axis. This rotation is responsible for creating the cycle of day and night we experience. A day on Earth lasts approximately 24 hours.
The time it takes a planet to rotate once on its axis is referred to as its rotational period. For example, Earth takes about 24 hours to complete one rotation, which defines a day. In contrast, other planets have varying rotational periods; for instance, Jupiter takes about 10 hours, while Venus takes about 243 Earth days. Each planet's rotation speed is influenced by its composition, size, and angular momentum.
One round trip around the sun is called a "YEAR".
one day
365.243 days -- if you're talking about days it takes for the earth to revolve around the sun. For any planet to rotate around its own axis takes one day -- one of that planet's days. The moon, for instance, is tide-locked to the Earth, so one lunar day is very close to the 28-Earth-day orbital period.
The time it takes for a planet to rotate on its axis varies depending on the planet. For example, Earth takes about 24 hours to complete one full rotation (a day), while Mars takes about 24.6 hours. Venus has an extremely slow rotation, completing one rotation in about 243 Earth days.
A complete turn of a planet on its axis is known as a "day." This rotation determines the length of a day on that planet. For Earth, it takes approximately 24 hours to complete one full rotation.
The time it takes for a planet to complete one rotation on its axis is known as its sidereal day. For example, Earth takes approximately 24 hours to complete one rotation. Other planets like Venus have longer rotation periods, for instance 243 Earth days for Venus to rotate once.
the world only take one day to rotate, x
Earth takes a bit less than 24 hours to complete one rotation (day). The day on Mars is a bit longer at 24.6 Earth hours.
59 day noy are uahppy
The time it takes for a planet to complete one full rotation on its axis varies depending on the planet. For example, Earth takes approximately 24 hours to rotate once, while Venus takes about 243 Earth days. The length of a day on a planet is determined by its rotational speed and size.
One day
It takes Venus about 243 days to rotate once on its axis. This makes one day of Venus equal to 243 days on Earth.
The planet Saturn takes about 10 hours and 39 minutes for it to rotate on its axis. Since the planet does not rotate uniformly the time does vary.
If you mean a locked orbit like some "hot Jupiter" exoplanets, then the answer is; one side of the planet will haveendless daylight and the other side a never ending night. In other words its "solar day" would last "for ever". Comment: that's not what the question says. It's about having no rotation at all. In that (unlikely) case the "sidereal day" would be, technically, infinite. The "solar day" would equal the length of the planet's year.