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Venus........ 224.7 Earth days (0.61519726 Earth years)
Mars.......... 686.93 Earth days (1.8808476 Earth years)
Jupiter....... 11.862615 Earth years
Saturn....... 29.447498 Earth years
Uranus...... 84.016846 Earth years
Neptune.... 164.79132 Earth years
Pluto......... 247.92065 Sidereal years
Ceres........ 4.60 Earth years
Makemake 305.34 Earth years
Haumea.... 281.93 Earth years
Eris.......... 561.37 Sidereal years
Sedna...... 12050 Earth years
What else can I help you with?
The planet with the longest period of revolution is?
Neptune has the longest period of revolution among all planets in our solar system, taking about 165 Earth years to complete one orbit around the Sun.
Why do planets have different periods of revolution?
The planets are not all the same distance from the Sun, which determines how far they have to travel, and how fast they are moving. Planets farther from the Sun have much longer orbits and are not moving as quickly. So their period of revolution (year) is longer.
The planet with the period of revolution closest to Earth's is?
Hi Venus is the only planet that has the revolution period closest to that of the Earth. Venus with a revolution time of 224.7 Earth days. Venus is the brightest of all the planets in the solar system and is known as the Earth's twin sister due to the similarity between the two planets in terms of Size, mass etc.
How money planets are there in your solar system?
There are eight planets and five dwarf planets in our solar system.
Which characteristic do all the planets in our solar system have in common?
revolution
What is the period of rotation and revolution of all planets from the sun?
You can look up information on the individual planets on Wikipedia. I am not sure the information is readily available as a ready-made list, so you may have to compile it yourself. The revolution around the Sun is listed as "orbital period".
What planet has the least period of revolution?
Mercury has the least period of revolution around the sun among all the planets in our solar system, completing one orbit in about 88 Earth days.
The planet with the longest period of revolution is?
Neptune has the longest period of revolution among all planets in our solar system, taking about 165 Earth years to complete one orbit around the Sun.
Why do planets have different periods of revolution?
The planets are not all the same distance from the Sun, which determines how far they have to travel, and how fast they are moving. Planets farther from the Sun have much longer orbits and are not moving as quickly. So their period of revolution (year) is longer.
Do all of the eight planets have craters?
No not all the planets have craters on.
The planet with the period of revolution closest to Earth's is?
Hi Venus is the only planet that has the revolution period closest to that of the Earth. Venus with a revolution time of 224.7 Earth days. Venus is the brightest of all the planets in the solar system and is known as the Earth's twin sister due to the similarity between the two planets in terms of Size, mass etc.
Why is each planet's period of revolution different?
They all have a difference because they all are not the same distance from the Sun, which determines how far they have to travel, and how fast they are moving. Planets farther from the Sun have much longer orbits and are not moving as quickly. So their period of revolution (year) is longer.
How money planets are there in your solar system?
There are eight planets and five dwarf planets in our solar system.
Do all eight planets have an axis?
Yes, all 8 planets along with planetesimals like Pluto revolve around and axis.
Which characteristic do all planets in our solar system have in common?
revolution
Which characteristic do all the planets in our solar system have in common?
revolution
How are all eight planets different?
All eight planets are identical, except for their mass, diameter, oblateness, distance from the sun, orbital speed, rotation period, revolution period, orbital eccentricity, presence or absence of atmosphere, composition of atmosphere, depth of atmosphere, atmospheric pressure at the surface, presence or absence of natural satellites, number of natural satellites, presence or absence of rings, number of rings, surface temperature, composition of the solid body, magnetic field, density, inclination of the rotation axis to the orbital plane, and inclination of the orbital plane to the ecliptic. Aside from that, they're pretty much all the same.
