To determine The general solution and stability of the critical point of the given systems of differential equation. Explanation Consider the given systems of differential equation as { y ′ 1 = − 2 y 1 + 5 y 2 y ′ 2 = − y 1 − 6 y 2 . The coefficient matrix of the corresponding systems of differential equations is A = [ 0 2 8 0 ] . Note that, a single vector equation is y ′ = A y , where A is coefficient matrix . Hence, a single vector equation is y ′ = [ − 2 5 − 1 − 6 ] y , where y = [ y 1 y 2 ] . Characteristic equation of the coefficient matrix A = [ − 2 5 − 1 − 6 ] is det ( A − λ I ) = 0 , where λ eigenvalue and I is 2 × 2 identity matrix . Simplify for the det ( A − λ I ) = 0 using the coefficient matrix as follows. det ( A − λ I ) = 0 det ( [ − 2 5 − 1 − 6 ] − λ [ 1 0 0 1 ] ) = 0 det ( [ − 2 − λ 5 − 1 − 6 − λ ] ) = 0 ( 2 + λ ) ( 6 + λ ) + 5 = 0 Further simplified as, λ 2 + 8 λ + 12 + 5 = 0 λ 2 + 8 λ + 16 + 1 = 0 ( λ + 4 ) 2 = − 1 λ + 4 = ± i λ = − 4 ± i Note that, if the eigenvalues λ = a ± b i , then the critical point is spiral point. Since the eigenvalues λ = − 4 ± i is complex number, then by the note the critical point is spiral point. Compute the eigenvector x ( 1 ) = [ x 1 x 2 ] corresponding to the eigenvalue λ = − 4 − i as follows. A x − ( − 4 − i ) x = 0 [ − 2 + 4 + i 5 − 1 − 6 + 4 + i ] [ x 1 x 2 ] = [ 0 0 ] [ ( 2 + i ) x 1 + 5 x 2 − x 1 + ( − 2 + i ) x 2 ] = [ 0 0 ] ( 2

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Author: Kreyszig

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Chapter 4, Problem 13RQ

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