Spherical is round where oblate spheroid is more like a oval shape
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.
None.
An oblate spheroid.
An oblate spheroid.
A three dimensional oval is simply called an egg, or more mathematically, an ovoid. A three dimensional ellipse (a more symmetric oval) is called a prolate spheroid, or oblate spheroid, depending on how the ellipse is rotated.
no! it is actually slightly squashed This is known as an oblate spheroid.
Uranus is mostly spherical in shape, like most planets in our solar system. It is a gas giant, meaning it does not have a solid surface and its atmosphere helps give it a rounded shape.
An ellipse is a flat, two-dimensional closed curve with the property that the sum of the distances from any point on the curve to two fixed points (foci) is constant. An oblate spheroid, on the other hand, is a three-dimensional shape formed by rotating an ellipse about its minor axis, resulting in a symmetrical, rounded shape with a bulging equator. In essence, an oblate spheroid is a three-dimensional version of an ellipse.
The shape of the Earth is very close to that of an oblate spheroid or oblate ellipsoid.
Spherical, or more technically, an oblate spheroid.
The Earth is an Oblate Spheroid - squashed at the poles.
Earth's shape is oblate spheroid.
oblate spheroid oblate spheroid
The earth is not quite spherical because it is slightly flattened at the poles. The precise name is an oblate spheroid.
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.
An oblate spheroid. As planets go, Venus is almost perfectly spherical. Its "oblateness" is nearly zero.
The Earth is generally considered to be an oblate spheroid, meaning it is mostly spherical but slightly flattened at the poles and bulging at the equator due to its rotation.