To determine The diagonalized state space representation of the given system. Explanation Given Information: System state space representation is given by, x ˙ = [ − 5 − 5 4 2 0 − 2 0 − 2 − 1 ] x + [ − 1 2 − 2 ] r ; y = [ − 1 1 2 ] x . Concept Used: A system x ˙ = A x + B u ; y = C x + D u , can be transformed to a similar system z ˙ = P − 1 A P z + P − 1 B u ; y = C P z + D u . Where z = P − 1 x . Calculation: System matrix is given as, A = [ − 5 − 5 4 2 0 − 2 0 − 2 − 1 ] . To find out the eigen values, λ I − A = [ λ + 5 5 − 4 − 2 λ 2 0 2 λ + 1 ] det ( λ I − A ) = ( λ + 5 ) [ λ ( λ + 1 ) − 4 ] − 5 [ − 2 ( λ + 1 ) ] − 4 [ − 4 ] = 0 ⇒ ( λ + 5 ) ( λ 2 + λ − 4 ) + 10 ( λ + 1 ) + 16 = 0 ⇒ λ 1 = − 1 , λ 2 = − 2 , λ 3 = − 3 For λ = − 1 , A x = λ x ⇒ [ − 5 − 5 4 2 0 − 2 0 − 2 − 1 ] [ x 1 x 2 x 3 ] = − [ x 1 x 2 x 3 ] − 5 x 1 − 5 x 2 + 4 x 3 = − x 1 ⇒ − 4 x 1 − 5 x 2 + 4 x 3 = 0 ( 1 ) 2 x 1 − 2 x 3 = − x 2 ⇒ 2 x 1 + x 2 − 2 x 3 = 0 ( 2 ) − 2 x 2 − x 3 = − x 3 ⇒ x 2 = 0 ( 3 ) Substitute this value in first equation, − 4 x 1 + 4 x 3 = 0 ⇒ x 1 = x 2 ( 4 ) So, one choice of eigen vector is, x = [ 1 0 1 ] . Similarly, for λ = − 2 , A x = λ x ⇒ [ − 5 − 5 4 2 0 − 2 0 − 2 − 1 ] [ x 1 x 2 x 3 ] = − 2 [ x 1 x 2 x 3 ] − 5 x 1 − 5 x 2 + 4 x 3 = − 2 x 1 ⇒ − 3 x 1 − 5 x 2 + 4 x 3 = 0 ( 5 ) 2 x 1 − 2 x 3 = − 2 x 2 ⇒ 2 x 1 + 2 x 2 − 2 x 3 = 0 ( 6 ) − 2 x 2 − x 3 = − 2 x 3 ⇒ x 3 = 2 x 2 ( 7 ) Substitute this value in fifth equation, − 3 x 1 − 5 x 2 + 8 x 2 = 0 ⇒ x 1 = x 2 ( 8 ) So, one choice of eigen vector is, x = [ 1 1 2 ]

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Chapter 5, Problem 45P

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Chapter 5, Problem 44P

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CONTROL SYSTEMS ENGINEERING

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