Explanation Given: The function f ′ ( t ) is a piecewise continuous function, where F ( s ) = L { f ( t ) } . Definition used: (1) If f ( t ) is a piecewise continuous function of the exponential order then, lim s → ∞ L { f ′ ( t ) } = 0 (2) The Laplace transformation of a linear differential equation with constant coefficient is express as, a n L { d n y d t n } = a n [ s n Y ( s ) − s ( n − 1 ) y ( 0 ) − ⋯ − y ( n − 1 ) ( 0 ) ] Calculation: It is given that f ′ ( t ) is a piecewise continuous function and of exponential order, therefore using definition (2) L { f ′ ( t ) } can be written as follows: L { f ′ ( t ) } = s F ( s ) − f ( 0 ) ( 1 ) From the definition (1), equation (1) can be written as follows: lim s → ∞ L { f ′ ( t ) } = 0 ( 2 ) Substitute the value of L { f ′ ( t ) } in equation (2) from equation (1)

Differential Equations with Boundary-Value Problems (MindTap Course List)

9th Edition

ISBN: 9781305965799

Author: Dennis G. Zill

Publisher: Cengage Learning

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Chapter 7.2, Problem 52E

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The justification for the equation f(0)=lims→∞sF(s) where F(s)=L{f(t)} and f′(t) is a piecewise continuous function of the exponential order c and verify the result for f(t)=coskt.

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Chapter 7.2, Problem 51E

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Chapter 7 Solutions

Differential Equations with Boundary-Value Problems (MindTap Course List)

Ch. 7.1 - In Problems 118 use Definition 7.1.1 to find f(t)....Ch. 7.1 - In Problems 118 use Definition 7.1.1 to find f(t)....Ch. 7.1 - In Problems 118 use Definition 7.1.1 to find f(t)....Ch. 7.1 - Prob. 4E Ch. 7.1 - Prob. 5E Ch. 7.1 - Prob. 6E Ch. 7.1 - Prob. 7E Ch. 7.1 - In Problems 118 use Definition 7.1.1 to find f(t)....Ch. 7.1 - In Problems 118 use Definition 7.1.1 to find f(t)....Ch. 7.1 - Prob. 10E

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The justification for the equation f ( 0 ) = lim s → ∞ s F ( s ) where F ( s ) = L { f ( t ) } and f ′ ( t ) is a piecewise continuous function of the exponential order c and verify the result for f ( t ) = cos k t .

Solution Summary: The author explains the Laplace transformation of a linear differential equation with constant coefficient.

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The justification for the equation f(0)=lims→∞sF(s) where F(s)=L{f(t)} and f′(t) is a piecewise continuous function of the exponential order c and verify the result for f(t)=coskt.

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