Non-Euclidean Geometry

Definition & Types

Oct 11, 2023 - 15:01
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example of straight line not being shortest distance between two points

non-Euclidean geometry, literally any geometry that is not the same as Euclidean geometry. Although the term is frequently used to refer only to hyperbolic geometry, common usage includes those few geometries (hyperbolic and spherical) that differ from but are very close to Euclidean geometry (see table).

Comparison of Euclidean, spherical, and hyperbolic geometries
Given a line and a point not on the line, there exist(s) ____________ through the given point and parallel to the given line.
a) exactly one line (Euclidean)
b) no lines (spherical)
c) infinitely many lines (hyperbolic)
Euclid’s fifth postulate is ____________.
a) true (Euclidean)
b) false (spherical)
c) false (hyperbolic)
The sum of the interior angles of a triangle ______ 180 degrees.
a) = (Euclidean)
b) > (spherical)
c) < (hyperbolic)

The non-Euclidean geometries developed along two different historical threads. The first thread started with the search to understand the movement of stars and planets in the apparently hemispherical sky. For example, Euclid (flourished c. 300 bce) wrote about spherical geometry in his astronomical work Phaenomena. In addition to looking to the heavens, the ancients attempted to understand the shape of the Earth and to use this understanding to solve problems in navigation over long distances (and later for large-scale surveying). These activities are aspects of spherical geometry.

The second thread started with the fifth (“parallel”) postulate in Euclid’s Elements:

If a straight line falling on two straight lines makes the interior angles on the same side less than two right angles, the two straight lines, if produced indefinitely, will meet on that side on which the angles are less than the two right angles.

For 2,000 years following Euclid, mathematicians attempted either to prove the postulate as a theorem (based on the other postulates) or to modify it in various ways. (See geometry: Non-Euclidean geometries.) These attempts culminated when the Russian Nikolay Lobachevsky (1829) and the Hungarian János Bolyai (1831) independently published a description of a geometry that, except for the parallel postulate, satisfied all of Euclid’s postulates and common notions. It is this geometry that is called hyperbolic geometry.

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