# Ball (sphere)

*Spherical surface. Ball (sphere). Center, radius and diameter of a ball.*

Sections of a ball. Large circle. Archimedean theorem. Parts of a ball:

spherical segment, spherical layer, spherical zone, spherical sector.

Sections of a ball. Large circle. Archimedean theorem. Parts of a ball:

spherical segment, spherical layer, spherical zone, spherical sector.

** Spherical surface **is

*a geometrical locus*

*in a space, that is a totality of all points, equally removed from one point O, which is*

called a center( Fig.90 )

called a center

*.*Radius AO and diameter AB are defined as well as in a circumference.

** Ball (sphere)** is

*a body, bounded by a spherical surface.*It is possible to receive a ball, rotating a half-circle (or a circle) about its

diameter. All plane sections of a ball –

*circles*(Fig.90). The largest circle is in a section, going through a center of a ball and is called a

*large circle*. Its radius is equal to a radius of a ball. Any two large circles are intersected along a diameter of a ball (AB, Fig.91). This

diameter is also a diameter for each of these intersecting circles. Through two points of a spherical surface, placed on the ends of the same diameter (A

and B, Fig.91 ), it is possible to draw an innumerable set of large circles. For instance, through the poles of Earth it is possible to draw an infinite number of

meridians.

*A volume of a ball is less than a volume of a curcumscribed cylinder * ( Fig.92 ) *in one and a half times; and a surface of a ball is less than a full
surface of *

*this cylinder also in one and a half times (Archimedean theorem ):*

Here *S *_{ball} and *V*_{ball} – a surface and a volume of a ball

correspondingly;

* S _{cyl} *and

*V*a full

_{cyl}–surface and a volume of a circumscribed cylinder.

** Parts of a ball. **A part of a ball (sphere), cut out by any plane ( ABC, Fig.93 ), is called a

*spherical segment*. The circle ABC

is called a

*base*of a spherical segment. The segment MN of a perpendicular, drawn from a center N of the circle ABC till intersection with a spherical surface, is called a

*of a spherical segment. The point M is called a*

height

height

*vertex*of a spherical segment.

A part of a sphere, concluded between the two parallel planes ABC and DEF, crossing the spherical surface ( Fig.93 ), is called a *spherical layer*;*
*a curved surface of a spherical layer is called a

*spherical*

*zone.*Circles ABC and DEF are called

*bases*of a spherical

zone. The distance NK between the bases of a spherical zone is its

*height*.

A part of a ball, bounded by a curved surface of a spherical segment ( AMCB, Fig.93 ) and the conic surface OABC, a base of which is a base

of a segment ( ABC ), and a vertex – a center of a ball O, is called a

*spherical sector*.