# Difference between revisions of "Cross ratio"

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− | ''double ratio, anharmonic ratio, of four points | + | {{TEX|done}} |

+ | ''double ratio, anharmonic ratio, of four points $M_1$, $M_2$, $M_3$, $M_4$ on a straight line'' | ||

− | A number denoted by the symbol | + | A number denoted by the symbol $(M_1M_2M_3M_4)$ and equal to |

− | + | $$\frac{M_1M_3}{M_3M_2}:\frac{M_1M_4}{M_4M_2}.$$ | |

− | Here, the ratio | + | Here, the ratio $M_1M_3/M_3M_2$ is considered to be positive if the directions of the segments $M_1M_3$ and $M_3M_2$ coincide, and is considered to be negative if these directions are opposite. The cross ratio depends on the numbering of the points, which may or may not be the same as the order of their appearance on the straight line. As well as the cross ratio of four points, one may consider the cross ratio of four straight lines passing through a point. This ratio, which is denoted by the symbol $(m_1m_2m_3m_4)$, is equal to |

− | + | $$\frac{\sin(m_1m_3)}{\sin(m_3m_2}:\frac{\sin(m_1m_4)}{\sin(m_4m_2)},$$ | |

− | and the angle | + | and the angle $(m_im_j)$ between the straight lines $m_i$ and $m_j$ is considered together with its sign. If the points $M_1$, $M_2$, $M_3$, $M_4$ lie on the straight lines $m_1$, $m_2$, $m_3$, $m_4$, one has |

− | + | $$(M_1M_2M_3M_4)=(m_1m_2m_3m_4).$$ | |

− | If the points | + | If the points $M_1$, $M_2$, $M_3$, $M_4$ and $M_1'$, $M_2'$, $M_3'$, $M_4'$ are obtained by the intersection of the same quadruple of straight lines $m_1$, $m_2$, $m_3$, $m_4$, then |

− | + | $$(M_1M_2M_3M_4)=(M_1'M_2'M_3'M_4').$$ | |

− | The cross ratio is an invariant of projective transformations. A cross ratio equal to | + | The cross ratio is an invariant of projective transformations. A cross ratio equal to $-1$ is known as a harmonic ratio (cf. [[Harmonic quadruple|Harmonic quadruple]] of points). |

## Revision as of 09:33, 13 April 2014

*double ratio, anharmonic ratio, of four points $M_1$, $M_2$, $M_3$, $M_4$ on a straight line*

A number denoted by the symbol $(M_1M_2M_3M_4)$ and equal to

$$\frac{M_1M_3}{M_3M_2}:\frac{M_1M_4}{M_4M_2}.$$

Here, the ratio $M_1M_3/M_3M_2$ is considered to be positive if the directions of the segments $M_1M_3$ and $M_3M_2$ coincide, and is considered to be negative if these directions are opposite. The cross ratio depends on the numbering of the points, which may or may not be the same as the order of their appearance on the straight line. As well as the cross ratio of four points, one may consider the cross ratio of four straight lines passing through a point. This ratio, which is denoted by the symbol $(m_1m_2m_3m_4)$, is equal to

$$\frac{\sin(m_1m_3)}{\sin(m_3m_2}:\frac{\sin(m_1m_4)}{\sin(m_4m_2)},$$

and the angle $(m_im_j)$ between the straight lines $m_i$ and $m_j$ is considered together with its sign. If the points $M_1$, $M_2$, $M_3$, $M_4$ lie on the straight lines $m_1$, $m_2$, $m_3$, $m_4$, one has

$$(M_1M_2M_3M_4)=(m_1m_2m_3m_4).$$

If the points $M_1$, $M_2$, $M_3$, $M_4$ and $M_1'$, $M_2'$, $M_3'$, $M_4'$ are obtained by the intersection of the same quadruple of straight lines $m_1$, $m_2$, $m_3$, $m_4$, then

$$(M_1M_2M_3M_4)=(M_1'M_2'M_3'M_4').$$

The cross ratio is an invariant of projective transformations. A cross ratio equal to $-1$ is known as a harmonic ratio (cf. Harmonic quadruple of points).

#### Comments

#### References

[a1] | H.S.M. Coxeter, "Projective geometry" , Univ. Toronto Press (1974) |

**How to Cite This Entry:**

Cross ratio.

*Encyclopedia of Mathematics.*URL: http://encyclopediaofmath.org/index.php?title=Cross_ratio&oldid=14582