Explanation Calculation: The given initial value problem is u ″ + 0.25 u ′ + 4 u = 2 cos 3 t , u ( 0 ) = 1 , u ′ ( 0 ) = − 2 . Transform the differential equation into system of first order equation. Transform the differential equation into system of first order equation. Let x 1 = u and x 2 = u ′ . Then it becomes x 1 ′ = x 2 and u ″ = x 2 ′ . Substitute u = x 1 , u ′ = x 2 and u ″ = x 2 ′ in the equation u ″ + 0.25 u ′ + 4 u = 2 cos 3 t . x 2 ′ + 0.25 x 2 + 4 x 1 = 2 cos 3 t x 2 ′ = − 0.25 x 2 − 4 x 1 + 2 cos 3 t That is, x 1 and x 2 satisfies the below system of two first order differential equations

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ISBN: 9780470458327

Author: William E. Boyce, Richard C. DiPrima

Publisher: Wiley, John & Sons, Incorporated

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To transform: The initial value problem u″+0.25u′+4u=2cos3t,u(0)=1,u′(0)=−2 into an initial value problem for two first order equations.

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To transform: The initial value problem u ″ + 0.25 u ′ + 4 u = 2 cos 3 t , u ( 0 ) = 1 , u ′ ( 0 ) = − 2 into an initial value problem for two first order equations.

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To transform: The initial value problem u″+0.25u′+4u=2cos3t,u(0)=1,u′(0)=−2 into an initial value problem for two first order equations.

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