Saturn's average orbital distance from the Sun is 1,427,000,000 km (1.4 billion km) or 9.5 AU (9.5 Astronomical Units means 9.5 times the distance from the sun to the Earth.)
The Sun does not have an orbital distance, it is the centre round which all the planets orbit.
However, the Sun does orbit the centre of the Milky Way which is located at a distance of 8.33±0.35 kpc (~27,000±1,000 ly) from the Sun in the direction of the constellations Sagittarius, Ophiuchus, and Scorpius where the Milky Way appears brightest.
MEAN ORBITAL VELOCITY OF SATURN: 9.96 KM/SECOND
In km/sec:
Mercury - 47.8
Venus - 35
Earth - 30
Mars - 24.1
Jupiter - 11.9
Saturn - 9.6
Uranus - 6.8
Neptune - 5.4
According to Wikipedia - 9.69 km/s
13km/s
Yes, the equation p2 = a3, where p is a planet's orbital period in years and a is the planet's average distance from the Sun in AU. This equation allows us to calculate the mass of a distance object if we can observe another object orbiting it and measure the orbiting object's orbital period and distance.
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Orbital velocitys
At what distance from the Sun would a planet's orbital period be 3 million years?
Assuming 'your planet' to be Earth. To some extent the question is meaningless because you would have to define where in the orbits the planets are to work out the instantaneous distance between them (Saturn could be on one side of the Sun and Earth on the other) It would be more meaningful to ask the distance between the orbits of the orbital paths of the planets not the planets themselves, in which case the separation of the orbits is approximately 8 AU.
The orbital eccentricity of Saturn is 0.056. The distance between the Sun and Saturn differs by 155 million kilometers at its nearest and farthest points.
Saturn's orbital eccentricity is 0.055723219
It varies, but the semi-major axis of Titan's orbit is about 1.22 million km. The actual distance between them would be slightly less, since Saturn itself has an equatorial radius of about 60,000 km.
Saturn.
Yes, the equation p2 = a3, where p is a planet's orbital period in years and a is the planet's average distance from the Sun in AU. This equation allows us to calculate the mass of a distance object if we can observe another object orbiting it and measure the orbiting object's orbital period and distance.
Saturn is slower because it is farther from the sun. The farther away a planet is from the sun, the slower its orbital speed.
the orbital period of Saturn in earth years are 89years
A very pronounced ring systemGreater distance from the SunSaturn has at least 62 moons, 53 of which have formal namesA longer orbital period
The orbital period of Saturn (the time it takes to revolve once around the Sun) is 29.657 Earth years.ConversionsMonths = ~356Weeks = ~1542Days = ~10,832Hours = ~259,084 .Saturn's orbital time is 29.7 Earth years.
It would depend on the star it was orbiting. If it were in our solar system, its orbital period would be little more than 30 years. (Saturn is approximately 9.5 AU from the Sun.)
Saturn
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