Short Trick - Eigen values & Eigen vectors | Matrices (Linear Algebra)

Dr.Gajendra Purohit

12 Mar 201828:11

Summary

TLDRIn this video, the instructor explains the concepts of eigenvalues and eigenvectors, key topics in engineering mathematics and competitive exams. The video covers the definitions, how to calculate eigenvalues through the characteristic equation, and the process for finding corresponding eigenvectors. The instructor also shares practical tips for solving related exam questions, including a trick to match eigenvectors with eigenvalues efficiently. Throughout the video, students are encouraged to check their work and apply key concepts to avoid mistakes, with real-world applications in engineering fields like electrical and computer science.

Takeaways

😀 Eigenvalues are the roots of the characteristic equation of a matrix.
😀 To find eigenvalues, solve the determinant equation det(A - λI) = 0, where A is the matrix, λ represents the eigenvalue, and I is the identity matrix.
😀 Eigenvectors correspond to eigenvalues and are non-zero solutions of the equation (A - λI) * v = 0.
😀 Understanding the relationship between eigenvalues and eigenvectors is crucial for engineering, B.Sc. students, and competitive exams like GATE.
😀 A matrix's rank is related to its eigenvalues: if all eigenvalues are non-zero, the matrix rank is full.
😀 Eigenvectors provide infinite solutions when eigenvalues are non-zero and the rank of the matrix is full.
😀 In exams, eigenvalue and eigenvector matching questions can be solved by verifying which eigenvector corresponds to a given eigenvalue.
😀 Double-check eigenvalues before moving on to eigenvectors, as wrong eigenvalues lead to incorrect eigenvectors.
😀 In GATE or other exams, when given multiple eigenvalue options, the correct eigenvector can be identified by substituting the eigenvalue into the matrix equation.
😀 Always check the sum of diagonal elements and compare it with the coefficient of λ² to verify eigenvalues are correct.

Q & A

What is an eigenvalue of a matrix?
-An eigenvalue of a matrix is a scalar that satisfies the characteristic equation of the matrix. It is the root of the determinant equation det(A - λI) = 0, where A is the matrix and λ is the eigenvalue.
How do you find the eigenvalue of a matrix?
-To find the eigenvalue of a matrix, you first set up the characteristic equation det(A - λI) = 0, where I is the identity matrix. Solve this equation to find the values of λ, which are the eigenvalues.
What is an eigenvector, and how is it related to eigenvalues?
-An eigenvector is a non-zero vector that, when the matrix is multiplied by it, results in a scalar multiple of itself. The scalar multiple is the eigenvalue corresponding to that eigenvector.
Can eigenvectors have multiple solutions? If so, why?
-Yes, eigenvectors can have multiple solutions because for each eigenvalue, there are typically infinitely many eigenvectors, as long as they are scalar multiples of each other.
What is the relationship between the rank of a matrix and its eigenvalues?
-If all eigenvalues of a matrix are non-zero, the rank of the matrix is equal to the number of non-zero eigenvalues. For example, if there are three non-zero eigenvalues, the rank of the matrix is three.
How do you check if your eigenvalues are correct?
-You can check your eigenvalues by verifying that the sum of the eigenvalues equals the coefficient of λ² in the characteristic equation. Additionally, applying the eigenvalues to the matrix should give you corresponding eigenvectors.
What happens if you find incorrect eigenvalues?
-If the eigenvalues are incorrect, the corresponding eigenvectors will also be incorrect. This is why it is crucial to verify eigenvalues before proceeding with finding eigenvectors.
What is the characteristic equation of a matrix?
-The characteristic equation of a matrix is det(A - λI) = 0, where A is the matrix, λ is the eigenvalue, and I is the identity matrix. Solving this equation gives the eigenvalues of the matrix.
In GATE exams, how do you approach problems that ask for the eigenvector corresponding to a given eigenvalue?
-In GATE exams, if you are given multiple eigenvalue options and need to find the corresponding eigenvector, you can use the trick of substituting each eigenvalue into the equation A * v = λ * v and check which eigenvector satisfies the equation.
What is the significance of eigenvalues and eigenvectors in practical applications?
-Eigenvalues and eigenvectors are used in various fields such as engineering, physics, computer science, and electronics. They help in analyzing systems, stability, and transformations, and are essential in areas like vibration analysis, data reduction (PCA), and control systems.