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logo1
Overview An Example Double Check
Using Laplace Transforms to Solve InitialValue Problems
Bernd Schroder
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t)
OriginalDE & IVP
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t)
OriginalDE & IVP
-L
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t)
OriginalDE & IVP
Algebraic equation forthe Laplace transform
-L
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t) Transform domain (s)
OriginalDE & IVP
Algebraic equation forthe Laplace transform
-L
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t) Transform domain (s)
OriginalDE & IVP
Algebraic equation forthe Laplace transform
-L
Algebraic solution,partial fractions
?
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t) Transform domain (s)
OriginalDE & IVP
Algebraic equation forthe Laplace transform
Laplace transformof the solution
-L
Algebraic solution,partial fractions
?
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t) Transform domain (s)
OriginalDE & IVP
Algebraic equation forthe Laplace transform
Laplace transformof the solution
-
�
L
L −1
Algebraic solution,partial fractions
?
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
Time Domain (t) Transform domain (s)
OriginalDE & IVP
Algebraic equation forthe Laplace transform
Laplace transformof the solutionSolution
-
�
L
L −1
Algebraic solution,partial fractions
?
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.
1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s)
(This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)
1.2 L{
y′}
(s) = sY(s)− y(0)1.3 L
{y′′
}(s) = s2Y(s)− sy(0)− y′(0)
1.4 L{
y(n)(t)}
(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)2. The right sides above do not involve derivatives of
whatever Y is.3. The other key property is that constants and sums “factor
through” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)
1.4 L{
y(n)(t)}
(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)2. The right sides above do not involve derivatives of
whatever Y is.3. The other key property is that constants and sums “factor
through” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:
L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.
(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
How Laplace Transforms Turn Initial ValueProblems Into Algebraic Equations
1. The first key property of the Laplace transform is the wayderivatives are transformed.1.1 L {y}(s) =: Y(s) (This is just notation.)1.2 L
{y′
}(s) = sY(s)− y(0)
1.3 L{
y′′}
(s) = s2Y(s)− sy(0)− y′(0)1.4 L
{y(n)(t)
}(s) = snY(s)− sn−1y(0)− sn−2y′(0)−·· ·− y(n−1)(0)
2. The right sides above do not involve derivatives ofwhatever Y is.
3. The other key property is that constants and sums “factorthrough” the Laplace transform:L {f +g} = L {f}+L {g} and L {af} = aL {f}.(That is, the Laplace transform is linear.)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7+12Y = 0(
s2 +7s+12)
Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7+12Y = 0(
s2 +7s+12)
Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
s2Y − s−2+7sY −7+12Y = 0(s2 +7s+12
)Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2
+7sY −7+12Y = 0(s2 +7s+12
)Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7
+12Y = 0(s2 +7s+12
)Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7+12Y = 0
(s2 +7s+12
)Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7+12Y = 0(
s2 +7s+12)
Y
= s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7+12Y = 0(
s2 +7s+12)
Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7+12Y = 0(
s2 +7s+12)
Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Finding the Laplace transform of the solution.
y′′+7y′+12y = 0, y(0) = 1, y′(0) = 2s2Y − s−2+7sY −7+12Y = 0(
s2 +7s+12)
Y = s+9
Y =s+9
s2 +7s+12
=s+9
(s+3)(s+4)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)
=A
s+3+
Bs+4
s+9(s+3)(s+4)
=A(s+4)+B(s+3)
(s+3)(s+4)s+9 = A(s+4)+B(s+3)
Heaviside′s Method :s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4
s+9(s+3)(s+4)
=A(s+4)+B(s+3)
(s+3)(s+4)s+9 = A(s+4)+B(s+3)
Heaviside′s Method :s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)
Heaviside′s Method :s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3
A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3 A = 6
s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3 A = 6s = −4
B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Partial fraction decomposition.
Y =s+9
(s+3)(s+4)=
As+3
+B
s+4s+9
(s+3)(s+4)=
A(s+4)+B(s+3)(s+3)(s+4)
s+9 = A(s+4)+B(s+3)Heaviside′s Method :
s = −3 A = 6s = −4 B = −5
Y =6
s+3− 5
s+4Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Inverting the Laplace Transform.
Y =6
s+3− 5
s+4Use the transform table.
L{
eat}(s) =1
s−a
= 61
s− (−3)−5
1s− (−4)
y = 6e−3t −5e−4t
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Inverting the Laplace Transform.
Y =6
s+3− 5
s+4
Use the transform table.
L{
eat}(s) =1
s−a
= 61
s− (−3)−5
1s− (−4)
y = 6e−3t −5e−4t
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Inverting the Laplace Transform.
Y =6
s+3− 5
s+4Use the transform table.
L{
eat}(s) =1
s−a
= 61
s− (−3)−5
1s− (−4)
y = 6e−3t −5e−4t
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Inverting the Laplace Transform.
Y =6
s+3− 5
s+4Use the transform table.
L{
eat}(s) =1
s−a
= 61
s− (−3)−5
1s− (−4)
y = 6e−3t −5e−4t
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Inverting the Laplace Transform.
Y =6
s+3− 5
s+4Use the transform table.
L{
eat}(s) =1
s−a
= 61
s− (−3)−5
1s− (−4)
y = 6e−3t −5e−4t
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
Inverting the Laplace Transform.
Y =6
s+3− 5
s+4Use the transform table.
L{
eat}(s) =1
s−a
= 61
s− (−3)−5
1s− (−4)
y = 6e−3t −5e−4t
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Solve the Initial Value Problemy′′+7y′+12y = 0, y(0) = 1, y′(0) = 2
y = 6e−3t −5e−4t
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t +(−80+140−60)e−4t ?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t +(−80+140−60)e−4t ?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0
(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t +(−80+140−60)e−4t ?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t +(−80+140−60)e−4t ?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t
+(−80+140−60)e−4t ?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t +(−80+140−60)e−4t
?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t +(−80+140−60)e−4t ?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the differential equation.
y′′+7y′+12y ?= 0(54e−3t−80e−4t
)+7
(−18e−3t+20e−4t
)+12
(6e−3t−5e−4t
)?= 0
(54−126+72)e−3t +(−80+140−60)e−4t ?= 0
0√= 0
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5
= 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1
√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20
= 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2
√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
logo1
Overview An Example Double Check
Does y = 6e−3t −5e−4t Really Solve the InitialValue Problem y′′+7y′+12y = 0, y(0) = 1,y′(0) = 2?
Checking the initial values.
y = 6e−3t −5e−4t
y(0) = 6−5 = 1√
y′ = −18e−3t +20e−4t
y′(0) = −18+20 = 2√
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Using Laplace Transforms to Solve Initial Value Problems
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