Chapter 14: Q56P (page 702)

Find the inverse Laplace transform of the following functions by using (7.16) $\frac{1}{p^{4} - 1}$ .

Short Answer

Expert verified

The required inverse Laplace transformation is $(z + 1) F (z) e^{z t} = - \frac{e^{- t}}{4}$ .

Step by step solution

Determine the residue of the poles.

So now we find the residue at all poles as,

Residue at $z = i$ ,

$\begin{array}{rcl} (z - i) F (z) e^{z t} & = & (z - i) \frac{e^{z t}}{(z - 1) (z + 1) (z + i) (z - i)} \\ (z - i) F (z) e^{z t} & = & \frac{e^{z t}}{(z - 1) (z + 1) (z + i)} \\ (z - i) F (z) e^{z t} & = & \frac{e^{i t}}{(i - 1) (i + 1) (i + i)} \\ (z - i) F (z) e^{z t} & = & \frac{e^{i t}}{4 i} \end{array}$

Residue at $\begin{array}{rcl} z & = & - i \end{array}$ ,

$\begin{array}{rcl} (z + i) F (z) e^{z t} & = & (z + i) \frac{e^{z t}}{(z - 1) (z + 1) (z + i) (z - i)} \\ (z + i) F (z) e^{z t} & = & \frac{e^{z t}}{(z - 1) (z + 1) (z - i)} \\ (z + i) F (z) e^{z t} & = & \frac{e^{i t}}{(- i - 1) (- i + 1) (- i - i)} \\ (z + i) F (z) e^{z t} & = & - \frac{e^{- i t}}{4 i} \end{array}$

Determine the Laplace transform.

$\frac{1}{p^{4} - 1}$ is given by sum of residue at all poles by Laplace transform,

$f (t) = \frac{e^{t}}{4} - \frac{e^{- t}}{4} + \frac{e^{i t}}{4 i} - \frac{e^{- i t}}{4 i} f (t) = \frac{1}{2} (\frac{e^{t} - e^{- t}}{2}) + \frac{1}{2} (\frac{e^{i t} - e^{- i t}}{2}) f (t) = \frac{1}{2} \sin h t + \frac{1}{2} \sin t$

Hence, localid="1664359707172" $f (t) = \frac{1}{2} s i n h t + \frac{1}{2} s i n t$

Determine the poles using inverse transformation.

Using convolution, to find the inverse transform of $\frac{1}{p^{4} - 1}$

Rewrite it as above equation,

$F (z) e^{z t} = \frac{e^{z t}}{z^{4} - 1}$

Determine the poles of $F (z) e^{z t}$ by factoring the denominator as,

$F (z) e^{z t} = \frac{e^{z t}}{z^{4} - 1} F (z) e^{z t} = \frac{e^{z t}}{(z^{2} - 1) (z^{2} + 1)} F (z) e^{z t} = \frac{e^{z t}}{(z - 1) (z + 1) (z + i) (z - i)}$

Simple poles at $z = \pm 1$ and $z = \pm i$ has the above equation

Determine the residue with simple poles.

So now we find the residues at simple all poles as:

Residue at, $\begin{array}{rcl} z & = & 1 \end{array}$

$\begin{array}{rcl} (z - 1) F (z) e^{z t} & = & (z - 1) \frac{e^{z t}}{(z - 1) (z + 1) (z + i) (z - i)} \\ (z - 1) F (z) e^{zt} & = & \frac{e^{zt}}{(z + 1) (z + i) (z - i)} \\ (z - 1) F (z) e^{zt} & = & \frac{e^{t}}{(1 + 1) (1 + i) (1 - i)} \\ (z - 1) F (z) e^{zt} & = & \frac{e^{t}}{4} \end{array}$

Residue at, localid="1664363748661" $\begin{array}{rcl} z & = & - 1 \end{array}$

$\begin{array}{rcl} (z + 1) F (z) e^{z t} & = & (z + 1) \frac{e^{z t}}{(z - 1) (z + 1) (z + i) (z - i)} \\ (z + 1) F (z) e^{z t} & = & \frac{e^{z t}}{(z - 1) (z + i) (z - i)} \\ (z + 1) F (z) e^{z t} & = & \frac{e^{- t}}{(- 1 - 1) (- 1 + i) (- 1 - i)} \\ (z + 1) F (z) e^{z t} & = & - \frac{e^{- t}}{4} \end{array}$

Unlock Step-by-Step Solutions & Ace Your Exams!

Full Textbook Solutions
Get detailed explanations and key concepts
Unlimited Al creation
Al flashcards, explanations, exams and more...
Ads-free access
To over 500 millions flashcards
Money-back guarantee
We refund you if you fail your exam.

Start your free trial

Over 30 million students worldwide already upgrade their learning with Vaia!

Recommended explanations on Physics Textbooks

View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Find the inverse Laplace transform of the following functions by using (7.16) $\frac{1}{p^{4} - 1}$ .

Short Answer

Step by step solution

Determine the residue of the poles.

Determine the Laplace transform.

Determine the poles using inverse transformation.

Determine the residue with simple poles.

One App. One Place for Learning.

Most popular questions from this chapter

Recommended explanations on Physics Textbooks

Electromagnetism

Magnetism

Classical Mechanics

Work Energy and Power

Torque and Rotational Motion

Particle Model of Matter

Study anywhere. Anytime. Across all devices.

Company

Product

Help

Find the inverse Laplace transform of the following functions by using (7.16) 1p4-1.

Short Answer

Step by step solution

Determine the residue of the poles.

Determine the Laplace transform.

Determine the poles using inverse transformation.

Determine the residue with simple poles.

One App. One Place for Learning.

Most popular questions from this chapter

Recommended explanations on Physics Textbooks

Electromagnetism

Magnetism

Classical Mechanics

Work Energy and Power

Torque and Rotational Motion

Particle Model of Matter

Study anywhere. Anytime. Across all devices.

Find the inverse Laplace transform of the following functions by using (7.16) $\frac{1}{p^{4} - 1}$ .