Find the inverse, if it exists, for each matrix. [2x2 matrix]

Question

Accepted Answer

Hello, today we're going to be determining the inverse of the following matrix. So the matrix that we are given is negative 52 negative seven. And one, one thing to note that this is a two by two matrix in the form of ABC and D. Now, whenever you're looking for the inverse of a matrix, you must always first check to see if it is possible to get the inverse for a two by two matrix. As long as the determinant is not equal to zero, then it is possible to get the inverse of the matrix. So how do we find the determinant of the two by two matrix? Well, the determinant is going to be the elements A times D minus C times B and we want to check and make sure that this quantity is not equal to zero. So applying this method to our current matrix is going to give us negative five times positive one minus two times negative seven, negative five times one is going to give us negative five. And we're going to be subtracting two minus seven which is going to give us negative 14. Now negative negative 14 is going to give us positive 14. So we have negative five plus 14, which is going to give us positive nine. Now, since we have the value of positive nine, which is not equal to zero, the determinant is a nonzero value. And that means that it is possible to get the inverse of the matrix. So now the question is how do we get the inverse for a two by two matrix? Well, we have an equation that helps us get the inverse. It's going to be one over the determinant of the matrix multiplied by D negative B negative C and A. So what this means is that we're going to be taking the upper left and lower right element and swapping their positions and we're gonna be taking the value of negative seven and negative two and multiplying it by negative one. So just to show you this process, our original matrix is negative 52, negative seven and one in order to get it in the form of D negative B negative C and A, we're going to be swattering the positions of one and negative five. And we're gonna be multiplying the other elements by negative one which is going to give us positive seven and negative two. Now we need to find the value of one over the determinant of a. Well, in the previous step, we found that the determinant is equal to na to positive nine. So that means that we're going to have 1/9, multiplied by the matrix of one negative two positive seven and negative five. In order to do this multiplication, we're going to be taking the value of 1/9 and multiplying it to each element inside of the matrix. And doing this is going to give us 1/9, negative 2/9 positive 7/9 and negative 5/9. And this is going to be the inverse of our given matrix. And with that being said, the answer to this problem is going to be C so I hope this video helps you in understanding how to find the inverse of a matrix. And I'll go ahead and see you all in the next video.

Find the inverse, if it exists, for each matrix. [2x2 matrix]

Key Concepts

Matrix Inversion

Determinant

Adjugate of a Matrix

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