Uranus and Neptune are about the same size, with Uranus being slightly bigger. Here are the actual measurements:
Uranus Equatorial Radius: R = 25,559 km (4.01 REarth) Mass: M = 14.5 MEarth
Neptune Equatorial Radius: R = 24,766 km (3.88 REarth) Mass: M = 17.1 MEarth
Uranus and Neptune are about the same size, with Uranus being slightly bigger. Here are the actual measurements:
Uranus: Equatorial Radius: R = 25,559 km (4.01 REarth) Mass: M = 14.5 MEarth
Neptune: Equatorial Radius: R = 24,766 km (3.88 REarth) Mass: M = 17.1 MEarth
Uranus is bigger at 51200 km in diameter
Neptune is 48600 km in diameter
Uranus is slightly bigger than Neptune in Visual Size but Neptune weighs more than Uranus
The eccentricity of earth's orbit is 0.016710219. This is a measure of how elliptical the orbit is. Earth's orbit is not a perfect circle, but the eccentricity shows that it is not a very pronounced ellipse, either.
At an average orbital distance about 27 times the Earth's distance from the
sun, Uranus revolves around the sun with a period of 84.3 Earth years, with
an orbital eccentricity of 0.0444 (rounded).
Saturn has an equatorial diameter of 120,536 km, about 9.4 times that of Earth.
That makes it the second largest planet in our Solar System, trailing only Jupiter.
Like all of the other planets, Saturn is an oblate spheroid. This means that its
equatorial diameter is larger than its diameter measured through the poles. In
the case of Saturn this distance is quite a bit different because of the planet's
high rotation speed. The polar diameter of Saturn is 108,728 km, meaning that
it is flattened by a factor of 9.8%.
At its equator Uranus' diameter is 51,100 km kilometers or 31,800 miles.
Uranus has an obliquity (axial tilt) of 97.77 degrees.
Uranus is about as old as the other planets in our solar system, roughly 4.6 billion years old.
Uranus does 84 years to go around the sun and Uranus spins on it's side.
The average distance is about 2,877,000,000 km.
Uranus has an escape velocity of 21.3 km/s.
For comparison the Earth has an escape velocity of 11.186 km/s
The eccentricity value measures how non-circular an orbit is. The planets in decreasing order of eccentricity with their approximate eccentricity values are: # Pluto: 0.25 # Mercury: 0.21 # Mars: 0.093 # Saturn: 0.056 # Jupiter: 0.048 # Uranus: 0.047 # Earth: 0.017 # Neptune: 0.0086 # Venus: 0.0068
Venus 0.007 Neptune 0.011 Earth 0.017 Uranus 0.046 Jupiter 0.049 Saturn 0.057 Mars 0.094 Mercury 0.205 (Pluto 0.244) The orbital eccentricity of an astronomical body is the amount by which its orbit deviates from a perfect circle, where 0 is perfectly circular, and 1.0 is a parabola, and no longer a closed orbit.
Jupiter's orbit is an ellipse with an eccentricity of 0.048, which means that it looks like a circle with the Sun off-centre by an amount equal to 0.048 times the average radius. Uranus has an eccentricity of 0.047 and that is the closest among the other planets.
The eccentricity of the Earth is approximately 0.0167.
It would have an eccentricity of 0.
It is less than most of them: Venus .007, Neptune .009, Earth .017, Uranus .047, Jupiter .048, Saturn .056, Mars .093, Mercury .206.
The eccentricity value measures how non-circular an orbit is. The planets in decreasing order of eccentricity with their approximate eccentricity values are: # Pluto: 0.25 # Mercury: 0.21 # Mars: 0.093 # Saturn: 0.056 # Jupiter: 0.048 # Uranus: 0.047 # Earth: 0.017 # Neptune: 0.0086 # Venus: 0.0068
Venus 0.007 Neptune 0.011 Earth 0.017 Uranus 0.046 Jupiter 0.049 Saturn 0.057 Mars 0.094 Mercury 0.205 (Pluto 0.244) The orbital eccentricity of an astronomical body is the amount by which its orbit deviates from a perfect circle, where 0 is perfectly circular, and 1.0 is a parabola, and no longer a closed orbit.
Jupiter, Saturn, Uranus and Neptune. Because of the eccentricity of Plutos orbit it is sometime inside the orbit of Neptune.
Earth has an average eccentricity in its orbit of 0.0167. This compares with 0.0068 for Venus and 0.205 for Mercury, which are the minimum and maximum eccentricities in the eight planets. So, the Earth's orbit is not too far from circular. In order of increasing eccentricity, the list of planets is: Venus Neptune Earth Uranus Jupiter Saturn Mars Mercury.
Jupiter's orbit is an ellipse with an eccentricity of 0.048, which means that it looks like a circle with the Sun off-centre by an amount equal to 0.048 times the average radius. Uranus has an eccentricity of 0.047 and that is the closest among the other planets.
The eccentricity of the Earth is approximately 0.0167.
Eccentricity is only present in ovals and ellipses. A circle is present. The eccentricity of an oval or ellipse is how linear it is.
The eccentricity of Hallry's comet is 0.967
The eccentricity of Psyche's orbit is 0.140
0.016710220 is the Earth's orbital eccentricity
The eccentricity of the circle is zero.