Solved In Exercises 5 8 Use Theorem 1 4 5 T In exercises 5 − 8, use theorem 1.4.5 to compute the inverse of the matrix. 5. 5. a = [ 2 4 − 3 4 ] in exercises 11 14, verify that the equations are valid for the matrices in exercises 5 − 8 . Our expert help has broken down your problem into an easy to learn solution you can count on. question: in exercises 5 8, use theorem 1.4.5 to compute the inverse of th matrix. 5. a = a=2 31] 4 4 theorem 1.4.5 the matrix a = al is invertible if and only if ad bc ‡ 0, in which case the inverse is given by the formula 1 4²¹ ² ² ² 2 a 1.
Solved In Exercises 5 8 Use Theorem 1 4 5 T Our expert help has broken down your problem into an easy to learn solution you can count on. question: in exercises 5 8, use theorem 1.4.5 to compute the inverse of the matrix. 5. a= = [ 2] here’s the best way to solve it. in exercises 5 8, use theorem 1.4.5 to compute the inverse of the matrix. 5. In this problem, a = 3 b = 1 c = 5 d = 2. therefore, det(a) = 32 15 = 1. refer back to the formula of an inverse matrix to see that a determinant equal to 1 will eliminate the fraction because 1 1 = 1. also, the determinant tells us that the matrix is invertible (the inverse can be taken.). Find a single elementary row operation that will create a 1 in the upper left corner of the given augmented matrix and will not create any fractions in its first row. (b) [7 4 2 2, 3 1 8 1, 6 3 1 4]. Best matched videos solved by our expert educators. use theorem 1.4 .5 to compute the inverse of the matrix. d =[ 6 −2 4 −1] d = [ 6 4 − 2 − 1] use theorem 1.4 .5 to compute the inverse of the matrix. c =[2 0 0 3] c = [ 2 0 0 3] use theorem 1.4 .5 to compute the inverse of the matrix. b =[3 5 1 2] b = [ 3 1 5 2].
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