The gravity of Jupiter's mass ought to have pulled the planet into a perfect sphere. However, Jupiter rotates very quickly, and the equatorial mass is lifted from its natural altitude by the centripedal force of Jupiter's spin.
Jupiter's length of day, as in its rotation period, is about 9.9 hours. This rapid rotation causes Jupiter to have an oblate shape, flattened at the poles and bulging at the equator.
The shape of Jupiter is actually an oblate spheroid. An oblate spheroid has flattened poles and a bulging equator. This is so because of its speed of its rotation. It completes one rotation in only 9 hours and 55 minutes. The centrifugal force generated causes the equator to bulge. the diameter of Jupiter's equator is 5400 miles (8600km) more then the diameter from pole to pole.
Jupiter's rapid rotation causes its flattening at the poles and bulging at the equator, giving it an oblate spheroid shape. This fast rotation also generates a strong magnetic field, which interacts with the solar wind to create powerful auroras near its poles.
An oblate spheroid is a three-dimensional shape that is like a sphere but slightly flattened at the poles and slightly bulging at the equator. It is often used to describe the shape of certain celestial bodies, such as planets like Earth. The term "oblate" refers to the flattening at the poles.
An oblate spheroid.
Jupiter is a large, circular, multicolored planet.Ans 2.The shape of Jupiter is an oblate spheroid.
Jupiter's length of day, as in its rotation period, is about 9.9 hours. This rapid rotation causes Jupiter to have an oblate shape, flattened at the poles and bulging at the equator.
oblate spheroid oblate spheroid
the shape of earth's orbit around the sun
The shape of the Earth is very close to that of an oblate spheroid or oblate ellipsoid.
An Oblate Sheriod is indeed a 3D figure. Coming From the root SPHERE.
An oblate spheroid is a sphere that is slightly flattened so that it is not perfectly spherical. Rotating planets, for example, are generally of this shape. The centrifugal force of the rotation causes the equatorial region to bulge out slightly.
oblate spheroid
Oblate spheroid
The rotation of the Earth causes it to bulge slightly at the equator, making it slightly flattened at the poles and slightly wider at the equator. This shape is known as an oblate spheroid.
The shape of the Earth is an oblate spheroid, meaning it is mostly spherical but slightly flattened at the poles and bulging at the equator due to its rotation.
Spherical is round where oblate spheroid is more like a oval shape