To determine The solution of the given IVP. Explanation Given: The given IVP is ( D 3 − 2 D 2 − 3 D ) y = 74 e − 3 x sin x , y ( 0 ) = − 1.4 , y ′ ( 0 ) = 3.2 , y ″ ( 0 ) = − 5.2 . Procedure used: Let y ( n ) + a n − 1 ( x ) y ( n − 1 ) + ⋯ + a 1 ( x ) y ′ + a 0 ( x ) y = r ( x ) be the n th order homogeneous ODE with constant coefficients, where y ( n ) = d n y d x n is the first term and r ( x ) ≠ 0 . A general solution of the above equation on an open interval I of the x -axis is of the form r ( x ) ≠ 0 Obtain the characteristic equation by substituting y = e λ x in the ODE as follows. y ( x ) = y h ( x ) + y p ( x ) Here y h ( x ) is a general solution of the corresponding homogeneous ODE. And y p ( x ) is any solution of the given equation on I containing no arbitrary constants. Calculation: Consider the given IVP, ( D 3 − 2 D 2 − 3 D ) y = 74 e − 3 x sin x , y ( 0 ) = − 1.4 , y ′ ( 0 ) = 3.2 , y ″ ( 0 ) = − 5.2 y ′ ′ ′ − 2 y ″ − 3 y ′ = 74 e − 3 x sin x , y ( 0 ) = − 1.4 , y ′ ( 0 ) = 3.2 , y ″ ( 0 ) = − 5.2 Consider the corresponding homogeneous equation of the given ODE, y ′ ′ ′ − 2 y ″ − 3 y ′ = 0 Obtain the characteristic equation as follows. λ 3 − 2 λ 2 − 3 λ = 0 Compute the roots of the characteristic equation as follows. λ ( λ 2 − 2 λ − 3 ) = 0 λ ( λ − 3 ) ( λ + 1 ) = 0 λ 1 = 0 , λ 2 = − 1 , λ 3 = 3 The homogeneous solution of the given ODE is given as follows. y h = c 1 e 0 x + c 2 e − x + c 3 e 3 x = c 1 + c 2 e − x + c 3 e 3 x Let the particular solution is of the form y p = e − 3 x ( A cos x + B sin x ) . Obtain the first three derivatives of the above equation as follows. y ′ p = − 3 e − 3 x ( A cos x + B sin x ) + e − 3 x ( − A sin x + B cos x ) = e − 3 x ( cos x ( B − 3 A ) + sin x ( − A − 3 B ) ) y ″ p = − 3 e − 3 x ( cos x ( B − 3 A ) + sin x ( − A − 3 B ) ) + e − 3 x ( sin x ( 3 A − B ) + cos x ( − A − 3 B ) ) = e − 3 x ( cos x ( 8 A − 6 B ) + sin x ( 6 A + 8 B ) ) y ′ ′ ′ p = − 3 e − 3 x ( cos x ( 8 A − 6 B ) + sin x ( 6 A + 8 B ) ) + e − 3 x ( sin x ( 6 B − 8 A ) + cos x ( 6 A + 8 B ) ) = e − 3 x ( cos x ( 26 B − 18 A ) + sin x ( − 26 A − 18 B ) ) Substitute the above derivatives in the given ODE as follows

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ISBN: 2819770198774

Author: Kreyszig

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