Article 66Q9M Why determinants with columns of ones?

Why determinants with columns of ones?

by
John
from John D. Cook on (#66Q9M)

Geometric equations often involve a determinant with a column of 1s. For example, the equation of a line through two points

line_thru_two_points.svg

or a circle through three points

circle_thru_three_points.svg

Or a general conic section through five points

det_equation_conic.svg

Why all the determinants and why all the 1s?

When you see a determinant equal to zero, you immediately think of matrix rows or columns being linearly dependent. But in the examples above it's not the Cartesian coordinates that are linearly dependent but projective coordinates that are dependent.

The 1s are in the last column, though they need not be, as a clue as to where they came from. You could permute the rows and columns any way you like and the determinant would still be zero. The 1s are in the last column because you can take Cartesian coordinates into projective coordinates by adding a 1 at the end.

This 1 is sort of a silent partner, and can be ignored much of the time. But the last projective coordinate is critical when it's necessary to be rigorous about points at infinity. The examples above are interesting because they are are an application of homogeneous coordinates when there's no concern about points at infinity.

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