Home > Matrix representation of conic sections

Conic sections have the form of a second-degree polynomial:

That can be written as:

Where is the vector:

And a matrix:

1 Classification

Regular and degenerated conic sections can be distinguished based on the determinant of A_Q.

If Q isn't degenerate, we can see what type of conic section it is by computing the subdeterminant resulting from removing the first row and the first column of A_Q (ie the minor A₁₁).

• Iff , it is a hyperbola.
• Iff , it is a parabola.
• Iff , it is an ellipseThe Ellipse is also an elliptical street immediately in front of the White House. In mathematics, an ellipse is a figure corresponding to a circle which has been stretched in one direction. This is an example of a conic section and can be defined as the l.

In the case of an ellipse, we can make a further distinction between an ellipse and a circle by comparing the last two diagonal elements corresponding to x² and y².

• If , it is a circle.

If the conic section is degenerate (), still allows us to distinguish its form:

• Iff , it is two intersecting lines.
• Iff , it is two (possibly coincident) parallel straight lines.
• Iff , it is empty.

2 Center

We can calculate the center by taking the last two rows of the associated matrix, set them equal to 0 and solve the system.

3 Axes

The major and minor axes are two lines determined by the center of the conic as a point and eigenvectors of the associated matrix as vectors of direction.

So we can write a canonical equation:

Because a 2x2 matrix has 2 eigenvectors, we obtain 2 axes.

4 Vertices

For a general conic we can determine its vertices by calculating the intersection of the conic and its axes — in other words, by solving the system:

5 Reduced equation

The reduced equation of a conic section is the equation of a conic section translated and rotated so that its center lies in the center of the coordinate system and its axes are parallel to the coordinate axes. This is equivalent to saying that the coordinates are moved to satisfy these properties. See the figure.

If and are the eigenvalueIn linear algebra, a scalar λ is called an eigenvalue (in some older texts, a characteristic value of a linear mapping A if there exists a nonzero vector x such that Ax &lambda x''. The vector x is called an eigenvector. In matrix theory, an elemens of the matrix A, the reduced equation can be written as:

Dividing between we obtain a reduced canonical equation. For example, for an ellipse:

From here we get 'a' and 'b'.

The transformationTransformation has two meanings in molecular biology: Transformation is the genetic alteration of a cell resulting from the introduction, uptake and expression of foreign DNA. Transformation is also the process by which normal cells are converted into cel of coordinates is given by: