Laplace Transform of Exponential times Hyperbolic Sine
Theorem
- $\map {\laptrans {e^{b t} \sinh a t} } s = \dfrac a {\paren {s - b}^2 - a^2}$
where:
- $a$ and $b$ are real numbers
- $s$ is a complex number with $\map \Re s > a + b$
- $\laptrans f$ denotes the Laplace transform of $f$ evaluated at $s$.
Proof
| \(\ds \map {\laptrans {e^{b t} \sinh a t} } s\) | \(=\) | \(\ds \map {\laptrans {\sinh a t} } {s - b}\) | First Translation Property of Laplace Transforms | |||||||||||
| \(\ds \) | \(=\) | \(\ds \frac a {\paren {s - b}^2 - a^2}\) | Laplace Transform of Hyperbolic Sine |
$\blacksquare$
Also presented as
can also be seen presented in the form:
- $\laptrans {\dfrac {e^{b t} \sinh a t} a} = \dfrac 1 {\paren {s - b}^2 - a^2}$
Sources
- 1965: Murray R. Spiegel: Theory and Problems of Laplace Transforms ... (previous) ... (next): Appendix $\text B$: Table of Special Laplace Transforms: $14.$
- 1968: Murray R. Spiegel: Mathematical Handbook of Formulas and Tables ... (previous) ... (next): $\S 32$: Table of Special Laplace Transforms: $32.38$
- 2009: Murray R. Spiegel, Seymour Lipschutz and John Liu: Mathematical Handbook of Formulas and Tables (3rd ed.) ... (previous) ... (next): $\S 33$: Laplace Transforms: Table of Special Laplace Transforms: $33.38.$