To determine The value of L ( f ) using the equation (1) and (2) if the value of f ( t ) = cosh 2 t . Explanation Formula used: 1. The Laplace transform of the function sin a t is a s 2 + a 2 . Theorem used: Laplace transform of derivatives: “The transforms of the first and second derivatives of f ( t ) satisfies the following conditions. L ( f ′ ) = s L ( f ) − f ( 0 ) ⋯ ( 1 ) L ( f ″ ) = s 2 L ( f ) − s f ( 0 ) − f ′ ( 0 ) ⋯ ( 2 ) Where (1) holds if f ( t ) is continuous for all t ≥ 0 and f ′ ( t ) is piecewise continuous on every finite interval on the semi axis t ≥ 0 . Similarly, (2) holds if f and f ′ are continuous for all t ≥ 0 and satisfy the growth restriction and f ″ is piecewise continuous on every finite interval on the semi axis t ≥ 0 .” Calculation: The given equation is f ( t ) = cosh 2 t . Obtain the first derivative of f ( t ) as shown below. f ( t ) = cosh 2 t f ′ ( t ) = 2 sinh t cosh t f ′ ( t ) = sinh 2 t Similarly obtain the second derivative as follows. f ″ ( t ) = 2 cosh 2 t Now, take Laplace transforms on both sides of the above equation of the second derivative and apply the above mentioned formula as shown below. L ( f ″ ( t ) ) = L ( 2 cosh 2 t ) = 2 s s 2 − 4 ⋯ ( 3 ) Substitute the value of L ( f ″ ) from equation (2) in equation (3) as shown below. L ( f ″ ( t ) ) = 2 s s 2 − 4 s 2 L ( f ) − s f ( 0 ) − f ′ ( 0 ) = 2 s s 2 − 4 ⋯ ( 4 ) Obtain the value f ( 0 ) by substituting the value 0 in the equation f ( t ) = cosh 2 t as shown below

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ISBN: 9780470458365

Author: Erwin Kreyszig

Publisher: Wiley, John & Sons, Incorporated

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Chapter 6.2, Problem 21P

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The value of L(f) using the equation (1) and (2) if the value of f(t)=cosh2t.

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Chapter 6.2, Problem 20P

Chapter 6.2, Problem 22P

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