Solid geometry

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Short description: Field of mathematics dealing with three-dimensional Euclidean spaces
Hyperboloid of one sheet

Solid geometry or stereometry is the geometry of three-dimensional Euclidean space (3D space).[1]

A solid figure is the region of 3D space bounded by a two-dimensional surface; for example, a solid ball consists of a sphere and its interior.

Solid geometry deals with the measurements of volumes of various solids, including pyramids, prisms (and other polyhedrons), cubes, cylinders, cones (and truncated cones).[2]

History

The Pythagoreans dealt with the regular solids, but the pyramid, prism, cone and cylinder were not studied until the Platonists. Eudoxus established their measurement, proving the pyramid and cone to have one-third the volume of a prism and cylinder on the same base and of the same height. He was probably also the discoverer of a proof that the volume enclosed by a sphere is proportional to the cube of its radius.[3]

Topics

Basic topics in solid geometry and stereometry include:


Advanced topics include:

List of solid figures

Whereas a sphere is the surface of a ball, for other solid figures it is sometimes ambiguous whether the term refers to the surface of the figure or the volume enclosed therein, notably for a cylinder.

Major types of shapes that either constitute or define a volume.
Figure Definitions Images
Parallelepiped Parallelepiped 2013-11-29.svg
Rhombohedron Rhombohedron.svg
Cuboid
  • A convex polyhedron bounded by six quadrilateral faces, whose polyhedral graph is the same as that of a cube[4]
  • Some sources also require that each of the faces is a rectangle (so each pair of adjacent faces meets in a right angle). This more restrictive type of cuboid is also known as a rectangular cuboid, right cuboid, rectangular box, rectangular hexahedron, right rectangular prism, or rectangular parallelepiped.[5]
Rectangular cuboid
Polyhedron Flat polygonal faces, straight edges and sharp corners or vertices
Uniform polyhedron Regular polygons as faces and is vertex-transitive (i.e., there is an isometry mapping any vertex onto any other)
Prism A polyhedron comprising an n-sided polygonal base, a second base which is a translated copy (rigidly moved without rotation) of the first, and n other faces (necessarily all parallelograms) joining corresponding sides of the two bases Hexagonal Prism BC.svg
Cone Tapers smoothly from a flat base (frequently, though not necessarily, circular) to a point called the apex or vertex
A right circular cone and an oblique circular cone
Cylinder Straight parallel sides and a circular or oval cross section
Ellipsoid A surface that may be obtained from a sphere by deforming it by means of directional scalings, or more generally, of an affine transformation
Examples of ellipsoids with equation [math]\displaystyle{ {x^2 \over a^2}+{y^2 \over b^2}+{z^2 \over c^2}=1: }[/math]
sphere (top, a=b=c=4),
spheroid (bottom left, a=b=5, c=3),
tri-axial ellipsoid (bottom right, a=4.5, b=6, c=3)
Lemon A lens (or less than half of a circular arc) rotated about an axis passing through the endpoints of the lens (or arc)[6] Lemon (geometry).png
Hyperboloid A surface that is generated by rotating a hyperbola around one of its principal axes Hyperboloid1.png

Techniques

Various techniques and tools are used in solid geometry. Among them, analytic geometry and vector techniques have a major impact by allowing the systematic use of linear equations and matrix algebra, which are important for higher dimensions.

Applications

A major application of solid geometry and stereometry is in 3D computer graphics.

See also

Notes

  1. The Britannica Guide to Geometry, Britannica Educational Publishing, 2010, pp. 67–68.
  2. Kiselev 2008.
  3. Paraphrased and taken in part from the 1911 Encyclopædia Britannica.
  4. Robertson, Stewart Alexander (1984). Polytopes and Symmetry. Cambridge University Press. p. 75. ISBN 9780521277396. https://archive.org/details/polytopessymmetr0000robe. 
  5. Dupuis, Nathan Fellowes (1893). Elements of Synthetic Solid Geometry. Macmillan. p. 53. https://archive.org/details/elementssynthet01dupugoog. Retrieved December 1, 2018. 
  6. Weisstein, Eric W.. "Lemon". http://mathworld.wolfram.com/Lemon.html. 

References

  • Kiselev, A. P. (2008). Geometry. Book II. Stereometry. Sumizdat. 




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