No. The period of revolution depends on the size of the orbit of the planet.
The period of revolution can be calculated using Kepler's Third Law: P^2 = a^3, where P is the period in years and a is the semimajor axis in astronomical units (AU). In this case, the period of revolution of the planet would be approximately 4.00 years.
Mercury's period of revolution around the sun is about 88 Earth days.
The year.
Jupiter takes about 11.86 Earth years to complete one orbit around the Sun. This is known as its orbital period or revolution.
The sun does revolve in the Galaxy, but the period at which a single revolution would occur would be hundreds of millions of years. The sun spins every 25 days.
all u have to do is die
1830
the period of revolution is related to the semimajor axis.... :)
the period of revolution is about 6.4 days
rotation would be 9 hours and 55 minutes.
There is no planet with a revolution period of 164 Earth days. Neptune, however, has a revolution period of 164.8 Earth years.
The period from 1750 - 1850 is known as the Age of Revolution.
Jupiter has the shortest period of revolution among the gas giants, with a revolution period of about 11.86 Earth years.
No. The period of revolution depends on the size of the orbit of the planet.
Mars has roughly twice the Earth's period of revolution.
The approximate length of time required for one complete revolution of the moon around the earth is about 27.3 days. This period is known as a lunar month or sidereal month.