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A 'spheroid' is a quadric surface in three dimensions obtained by rotating an ellipse about one of its principal axes. Three particular cases of a spheroid are:

★ If the ellipse is rotated about its major axis, the surface is a 'prolate spheroid' (similar to the shape of a rugby ball).
Main articles: prolate


★ If the ellipse is rotated about its minor axis, the surface is an 'oblate spheroid' (similar to the shape of the planet Earth).
Main articles: oblate spheroid


★ If the generating ellipse is a circle, the surface is a 'sphere' (completely symmetric).
Main articles: sphere

Alternatively, a spheroid can also be characterised as an 'ellipsoid' having two equal equatorial semi-axes (i.e., ''a_x'' = ''a_y'' = ''a''), as represented by the equation
:
Main articles: ellipsoid

Contents

Surface area

Volume

Curvature

See also

External links

Surface area

A prolate spheroid has surface area
:
ight)=2pileft(rac{a^2}{operatorname{sin!c}(2o!arepsilon)}+b^2
ight).,!
An oblate spheroid has surface area
:
ight)
ight),,!
where

★ $a,!$ is the semi-major axis length;

★ $b,!$ is the semi-minor axis length;

★ is the ''angular eccentricity'' of an ellipse (which is inherently oblate in shape):
::
ight)=2rctanleft(sqrt{rac{a-b}{a+b}}
ight)quadmathrm{(oblate)},,!
:::
ight)=2rctanleft(sqrt{rac{b-a}{b+a}}
ight)quadmathrm{(prolate)};,!
::''(sin(oε) is frequently expressed as the eccentricity, ''"''e''"'')''

Volume

Prolate spheroid:

★ volume is
Oblate spheroid:

★ volume is

Curvature

If a spheroid is parameterized as
:
where is the 'reduced' or 'parametric latitude', $lambda,!$ is the 'longitude', and
and
:
and its mean curvature is
:
Both of these curvatures are always positive, so that every point on a spheroid is elliptic.

See also

★ Ovoid

External links

★ Calculator: surface area of oblate spheroid

★ Calculator: surface area of prolate spheroid