610.45 d at 2.367 km/s of speed.
An hour on Neptune is approximately 16.1 Earth hours long. Neptune has a longer rotational period compared to Earth, which is why its days are much longer.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
The planet Mercury has a day that is almost the same length as its year. Mercury's rotation period is about 59 Earth days, which is very close to its orbital period around the Sun of about 88 Earth days. This means that one day on Mercury is almost as long as one year on Mercury.
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.
243 days in earth days and no earth years.
Rotation means the planet spinning about it axis. (Orbit the the path of the planet round the Sun). The planet Mercury has a rotational period of 58.646 Earth days. The planet Venus has a (retrograde) rotational period of 243.0185 Earth days. The planet Mars has a rotational period of 1.025957 Earth days. The planet Jupiter has a rotational period of 9.925 hours. Obviously Earth has a rotational period of 1 Earth day.
The rotational period of Venus is 243 Earth days.
There are no planets in our solar system with a rotational period of 318 days. The longest is Venus, with a rotational period of 243 days.
it3671/4 24 hr
The rotational period of Pluto is about 6.4 earth days.
Earth The sidereal rotational period of Mars is 1.025 957 days (ie 24.62296 hours) The sidereal rotational period of Earth is 0.99726968 day (ie 23h 56m 4.100s)
mercury is the first planet closest to the sun which makes it the hottest. its period of revolution is 88 days.
The moon's period of rotation on its axis is precisely synchronized with its period of orbital revolution around the earth. Both are 27.32 days.
Io's rotational period, or the time it takes for the moon to complete one full rotation on its axis, is approximately 42.5 hours. This means that a day on Io lasts around 42.5 Earth hours.
Venus, with a rotation period of 243 days.
The Moon's orbital period (time to orbit Earth) is about 27.3 days, which is the same as its rotational period (time to rotate once on its axis). This synchronous rotation is why we always see the same face of the Moon from Earth.