Eigenvalues and eigenvectors, Function pcar – HP 49g+ User Manual

Page 11-44

Eigenvalues and eigenvectors

Given a square matrix

A, we can write the eigenvalue equation A⋅x = λ⋅x,

where the values of

λ that satisfy the equation are known as the eigenvalues

of matrix

A. For each value of λ, we can find, from the same equation,

values of

x that satisfy the eigenvalue equation. These values of x are known

as the eigenvectors of matrix

A. The eigenvalues equation can be written

also as (

A – λ⋅I)x = 0.

This equation will have a non-trivial solution only if the matrix (

A – λ⋅I) is

singular, i.e., if det(

A – λ⋅I) = 0.

The last equation generates an algebraic equation involving a polynomial of
order n for a square matrix A

n

×

n

. The resulting equation is known as the

characteristic polynomial of matrix

A. Solving the characteristic polynomial

produces the eigenvalues of the matrix.

The calculator provides a number of functions that provide information
regarding the eigenvalues and eigenvectors of a square matrix. Some of
these functions are located under the menu MATRICES/EIGEN activated
through

„Ø.

Function PCAR

Function PCAR generates the characteristic polynomial of a square matrix
using the contents of variable VX (a CAS reserved variable, typically equal to
‘X’) as the unknown in the polynomial. For example, enter the following
matrix in ALG mode and find the characteristic equation using PCAR:

[[1,5,-3],[2,-1,4],[3,5,2]]