Hewlett-Packard F2226A - 48GII Graphic Calculator User's Manual
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Brand: HP
Category: Calculator
Type: Operation & user’s manual
Model: HP 48gII , HP F2226A - 48GII Graphic Calculator
Pages: 864 (9.97 Mb)
Page 16-17
Another important result, known as the second shift theorem for a shift to the
right, is that L
-1
{e
–as
⋅F(s)}=f(t-a)⋅H(t-a), with F(s) = L{f(t)}.
In the calculator the Heaviside step function H(t) is simply referred to as ‘1’.
To check the transform in the calculator use: 1 ` LAP. The result is ‘1/X’,
i.e., L{1} = 1/s. Similarly, ‘U0’ ` LAP , produces the result ‘U0/X’, i.e.,
L{U
0
} = U
0
/s.
You can obtain Dirac’s delta function in the calculator by using: 1` ILAP
The result is ‘Delta(X)’.
This result is simply symbolic, i.e., you cannot find a numerical value for, say
‘
Delta(5)’.
This result can be defined the Laplace transform for Dirac’s delta function,
because from L
-1
{1.0}= δ(t), it follows that L{δ(t)} = 1.0
Also, using the shift theorem for a shift to the right, L{f(t-a)}=e
–as
⋅L{f(t)} =
e
–as
⋅F(s), we can write L{δ(t-k)}=e
–ks
⋅L{δ(t)} = e
–ks
⋅1.0 = e
–ks
.
Applications of Laplace transform in the solution of linear ODEs
At the beginning of the section on Laplace transforms we indicated that you
could use these transforms to convert a linear ODE in the time domain into an
algebraic equation in the image domain. The resulting equation is then
solved for a function F(s) through algebraic methods, and the solution to the
ODE is found by using the inverse Laplace transform on F(s).
The theorems on derivatives of a function, i.e.,
L{df/dt} = s⋅F(s) - f
o
,
L{d
2
f/dt
2
} = s
2
⋅F(s) - s⋅f
o
– (df/dt)
o
,
and, in general,
L{d
n
f/dt
n
} = s
n
⋅F(s) – s
n-1
⋅f
o
−…– s⋅f
(n-2)
o
– f
(n-1)
o
,
are particularly useful in transforming an ODE into an algebraic equation.