Program Explanation Given information: The particular solution of the differential equation y ( 4 ) − y ( 3 ) − y ″ − y ′ − 2 y = 8 x 5 is y p ( x ) = 225 − 450 x + 30 x 2 + 20 x 3 + 10 x 4 − 4 x 5 and the initial condition is y ( 0 ) = y ′ ( 0 ) = y ″ ( 0 ) = y ( 3 ) ( 0 ) = 0 Calculation: The given differential equation is y ( 4 ) − y ( 3 ) − y ″ − y ′ − 2 y = 8 x 5 . Now, obtain the partial solution of differential equation y ( 4 ) − y ( 3 ) − y ″ − y ′ − 2 y = 8 x 5 by the method of undetermined coefficient. Consider y as e r x be the solution of the homogeneous differential equation. Therefore, the characteristic equation corresponding to homogeneous differential equation y ( 4 ) − y ( 3 ) − y ″ − y ′ − 2 y = 0 is r 4 − r 3 − r 2 − r − 2 = 0 . Now, the roots of the characteristic equation is calculated as, r 4 − r 3 − r 2 − r − 2 = 0 ( r + 1 ) ( r − 2 ) ( r 2 + 1 ) = 0 r = − 1 , r = 2 , r = i , r = − i Therefore, the roots of the equations are r 1 = − 1 , r 2 = 2 , r 3 = i and r 4 = − i . The complementary function of the differential equation can be written as, y c ( x ) = c 1 e − x + c 2 e 2 x + c 3 cos x + c 4 sin x It is given that the particular solution of the differential equation y ( 4 ) − y ( 3 ) − y ″ − y ′ − 2 y = 8 x 5 is y p ( x ) = 225 − 450 x + 30 x 2 + 20 x 3 + 10 x 4 − 4 x 5 . The general solution of the given differential equation y ( 4 ) − y ( 3 ) − y ″ − y ′ − 2 y = 8 x 5 can be written as, y ( x ) = [ c 1 e − x + c 2 e 2 x + c 3 cos x + c 4 sin x + 225 − 450 x + 30 x 2 + 20 x 3 + 10 x 4 − 4 x 5 ] ........ (1) Differentiate y ( x ) = c 1 e − x + c 2 e 2 x + c 3 cos x + c 4 sin x + 225 − 450 x + 30 x 2 + 20 x 3 + 10 x 4 − 4 x 5 with respect to x and obtain the first derivative as, y ′ ( x ) = [ − c 1 e − x + 2 c 2 e 2 x − c 3 sin x + c 4 cos x − 450 + 60 x + 60 x 2 + 40 x 3 − 20 x 4 ] ........ (2) Differentiate y ′ ( x ) = − c 1 e − x + 2 c 2 e 2 x − c 3 sin x + c 4 cos x − 450 + 60 x + 60 x 2 + 40 x 3 − 20 x 4 with respect to x and obtain the first derivative as, y ″ ( x ) = c 1 e − x + 4 c 2 e 2 x − c 3 cos x − c 4 sin x + 60 + 120 x + 120 x 2 − 80 x 3 ........ (3) Differentiate y ″ ( x ) = c 1 e − x + 4 c 2 e 2 x − c 3 cos x − c 4 sin x + 60 + 120 x + 120 x 2 − 80 x 3 with respect to x and obtain the first derivative as, y ( 3 ) ( x ) = − c 1 e − x + 8 c 2 e 2 x + c 3 sin x − c 4 cos x + 120 + 240 x − 240 x 2

Differential Equations: Computing and Modeling (5th Edition), Edwards, Penney & Calvis

5th Edition

ISBN: 9780321816252

Author: C. Henry Edwards, David E. Penney, David Calvis

Publisher: PEARSON

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Problems on Growing Functions

For a given set of functions f and g, the growth of functions states that the function g grows as fast as the function f. The growth rate of algorithms helps determine the algorithm's efficiency and compare its performance to other algorithms.

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Chapter 3.5, Problem 42P

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Program Description: Purpose of problem is to find the solution of the differential equation y(4)−y(3)−y″−y′−2y=8x5 with initial conditions y(0)=y′(0)=y″(0)=y(3)(0)=0 .

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Chapter 3.5, Problem 41P

Chapter 3.5, Problem 43P

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Chapter 3 Solutions

Differential Equations: Computing and Modeling (5th Edition), Edwards, Penney & Calvis

Ch. 3.1 - In Problems 1 through 16, a homogeneous...Ch. 3.1 - Prob. 2P Ch. 3.1 - Prob. 3P Ch. 3.1 - Prob. 4P Ch. 3.1 - Prob. 5P Ch. 3.1 - Prob. 6P Ch. 3.1 - Prob. 7P Ch. 3.1 - Prob. 8P Ch. 3.1 - Prob. 9P Ch. 3.1 - Prob. 10P

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Program Description: Purpose of problem is to find the solution of the differential equation y ( 4 ) − y ( 3 ) − y ″ − y ′ − 2 y = 8 x 5 with initial conditions y ( 0 ) = y ′ ( 0 ) = y ″ ( 0 ) = y ( 3 ) ( 0 ) = 0 .

Solution Summary: The author explains the purpose of the problem, which is to find the solution to the differential equation y(4)

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Program Description: Purpose of problem is to find the solution of the differential equation y(4)−y(3)−y″−y′−2y=8x5 with initial conditions y(0)=y′(0)=y″(0)=y(3)(0)=0 .

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Chapter 3 Solutions