Sujin Test - Rhea

Let define a n-by-n matrix A and a non-zero vector $\vec{x}\in\mathbb{R}^{n}$ . If there exists a scalar value $\lambda$ which satisfies the vector equation $A\vec{x}=\lambda\vec{x}$ , we define $\lambda$ as an eigenvalue of the matrix A, and the corresponding non-zero vector $\vec{x}$ is called an eigenvector of the matrix A. To determine eigenvalues and eigenvectors a characteristic equation

D(\lambda)=det\left(A-\lambda I\right)

is used. Here is an example of determining eigenvectors and eigenvalues where the matrix A is given by

A=\left[\begin{matrix}-5 & 2\\ 2 & -2 \end{matrix}\right]

.

Then the characteristic equation

D(\lambda)=\left(-5-\lambda\right)\left(-2-\lambda\right)-4=\lambda^{2}+7\lambda+6=0.

By solving the quadratic equation for $\lambda$ , we will have two eigenvalues $\lambda_{1}=-1$ and $\lambda_{2}=-6$ . By substituting $\lambda's$ into Eq [eq:1]

\left(A-\lambda_{1}I\right)\vec{x}=\left[\begin{matrix}-5-\lambda_{1} & 2\\ 2 & -2-\lambda \end{matrix}\right]\left[\begin{matrix}x_{1}\\ x_{2} \end{matrix}\right]=0

Sujin Test - Rhea

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