Laplace transform of $frac{sin^2(t)}{t}$
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Because : $$mathscr Lleft(frac{f(t)}{t}right) = int_s^∞ F(s) ds$$
and $$mathscr Lleft(sin^2(t)right) = frac{2}{sleft(s^2 + 4right)}$$
then $$∫ frac{2}{sleft(s^2+4right)} ds = frac{1}{2}ln|s|-frac{1}{4}ln|s^2 + 4|$$
What should I do next...?
the answer that textbook gives me is $$frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)$$
laplace-transform
edited Dec 23 '18 at 8:50
DavidG
2,4561726
asked Dec 23 '18 at 7:43
FOMTFOMT
133
$endgroup$
add a comment |
$begingroup$
Because : $$mathscr Lleft(frac{f(t)}{t}right) = int_s^∞ F(s) ds$$
and $$mathscr Lleft(sin^2(t)right) = frac{2}{sleft(s^2 + 4right)}$$
then $$∫ frac{2}{sleft(s^2+4right)} ds = frac{1}{2}ln|s|-frac{1}{4}ln|s^2 + 4|$$
What should I do next...?
the answer that textbook gives me is $$frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)$$
laplace-transform
edited Dec 23 '18 at 8:50
DavidG
2,4561726
asked Dec 23 '18 at 7:43
FOMTFOMT
133
$endgroup$
2
$begingroup$
Please see math.meta.stackexchange.com/questions/5020
$endgroup$
– Lord Shark the Unknown
Dec 23 '18 at 7:45
add a comment |
$begingroup$
Because : $$mathscr Lleft(frac{f(t)}{t}right) = int_s^∞ F(s) ds$$
and $$mathscr Lleft(sin^2(t)right) = frac{2}{sleft(s^2 + 4right)}$$
then $$∫ frac{2}{sleft(s^2+4right)} ds = frac{1}{2}ln|s|-frac{1}{4}ln|s^2 + 4|$$
What should I do next...?
the answer that textbook gives me is $$frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)$$
laplace-transform
edited Dec 23 '18 at 8:50
DavidG
2,4561726
asked Dec 23 '18 at 7:43
FOMTFOMT
133
$endgroup$
Because : $$mathscr Lleft(frac{f(t)}{t}right) = int_s^∞ F(s) ds$$
and $$mathscr Lleft(sin^2(t)right) = frac{2}{sleft(s^2 + 4right)}$$
then $$∫ frac{2}{sleft(s^2+4right)} ds = frac{1}{2}ln|s|-frac{1}{4}ln|s^2 + 4|$$
What should I do next...?
the answer that textbook gives me is $$frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)$$
laplace-transform
laplace-transform
edited Dec 23 '18 at 8:50
DavidG
2,4561726
asked Dec 23 '18 at 7:43
FOMTFOMT
133
edited Dec 23 '18 at 8:50
DavidG
2,4561726
asked Dec 23 '18 at 7:43
FOMTFOMT
133
edited Dec 23 '18 at 8:50
DavidG
2,4561726
edited Dec 23 '18 at 8:50
DavidG
2,4561726
edited Dec 23 '18 at 8:50
DavidG
2,4561726
2,4561726
asked Dec 23 '18 at 7:43
FOMTFOMT
133
asked Dec 23 '18 at 7:43
FOMTFOMT
133
asked Dec 23 '18 at 7:43
FOMTFOMT
133
133
2
$begingroup$
Please see math.meta.stackexchange.com/questions/5020
$endgroup$
– Lord Shark the Unknown
Dec 23 '18 at 7:45
add a comment |
2
$begingroup$
Please see math.meta.stackexchange.com/questions/5020
$endgroup$
– Lord Shark the Unknown
Dec 23 '18 at 7:45
2
2
$begingroup$
Please see math.meta.stackexchange.com/questions/5020
$endgroup$
– Lord Shark the Unknown
Dec 23 '18 at 7:45
$begingroup$
Please see math.meta.stackexchange.com/questions/5020
$endgroup$
– Lord Shark the Unknown
Dec 23 '18 at 7:45
add a comment |
1 Answer
1
active
oldest
votes
$begingroup$
Using the double angle identity:
begin{equation}
sin^2(t) = frac{1 - cos(2t)}{2}
end{equation}
Thus,
begin{equation}
mathscr{L}left[sin^2(t)right] = frac{1}{2s} - frac{s}{2left(s^2 + 4right)}
end{equation}
We now employ the property of Laplace Transforms:
begin{equation}
mathscr{L}left[ frac{f(t)}{t} right] = int_{s}^{infty}mathscr{L}left[ f(t) right]_u:ds
end{equation}
Thus,
begin{align}
mathscr{L}left[ frac{sin^2(t)}{t} right] &= int_{s}^{infty}left[ frac{1}{2u} - frac{u}{2left(u^2 + 4right)} right]:du = left[ frac{1}{2}ln(u) - frac{1}{4}lnleft(u^2 + 4right)right]_{s}^{infty}\
& = left[frac{1}{4}lnleft(frac{u^2}{u^2 + 4} right) right]_{s}^{infty} = frac{1}{4}left[0 - lnleft(frac{s^2}{s^2 + 4} right) right] = - frac{1}{4}lnleft(frac{s^2}{s^2 + 4}right)\
& = frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)
end{align}
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
$endgroup$
$begingroup$
If you're looking for other methods, I recommend taking away the 'Answered' status on my comment (many ignore answered questions). Up to you of course! Merry xmas!
$endgroup$
– DavidG
Dec 23 '18 at 10:17
add a comment |
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1 Answer
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active
oldest
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1 Answer
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active
oldest
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active
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votes
$begingroup$
Using the double angle identity:
begin{equation}
sin^2(t) = frac{1 - cos(2t)}{2}
end{equation}
Thus,
begin{equation}
mathscr{L}left[sin^2(t)right] = frac{1}{2s} - frac{s}{2left(s^2 + 4right)}
end{equation}
We now employ the property of Laplace Transforms:
begin{equation}
mathscr{L}left[ frac{f(t)}{t} right] = int_{s}^{infty}mathscr{L}left[ f(t) right]_u:ds
end{equation}
Thus,
begin{align}
mathscr{L}left[ frac{sin^2(t)}{t} right] &= int_{s}^{infty}left[ frac{1}{2u} - frac{u}{2left(u^2 + 4right)} right]:du = left[ frac{1}{2}ln(u) - frac{1}{4}lnleft(u^2 + 4right)right]_{s}^{infty}\
& = left[frac{1}{4}lnleft(frac{u^2}{u^2 + 4} right) right]_{s}^{infty} = frac{1}{4}left[0 - lnleft(frac{s^2}{s^2 + 4} right) right] = - frac{1}{4}lnleft(frac{s^2}{s^2 + 4}right)\
& = frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)
end{align}
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
$endgroup$
$begingroup$
If you're looking for other methods, I recommend taking away the 'Answered' status on my comment (many ignore answered questions). Up to you of course! Merry xmas!
$endgroup$
– DavidG
Dec 23 '18 at 10:17
add a comment |
$begingroup$
Using the double angle identity:
begin{equation}
sin^2(t) = frac{1 - cos(2t)}{2}
end{equation}
Thus,
begin{equation}
mathscr{L}left[sin^2(t)right] = frac{1}{2s} - frac{s}{2left(s^2 + 4right)}
end{equation}
We now employ the property of Laplace Transforms:
begin{equation}
mathscr{L}left[ frac{f(t)}{t} right] = int_{s}^{infty}mathscr{L}left[ f(t) right]_u:ds
end{equation}
Thus,
begin{align}
mathscr{L}left[ frac{sin^2(t)}{t} right] &= int_{s}^{infty}left[ frac{1}{2u} - frac{u}{2left(u^2 + 4right)} right]:du = left[ frac{1}{2}ln(u) - frac{1}{4}lnleft(u^2 + 4right)right]_{s}^{infty}\
& = left[frac{1}{4}lnleft(frac{u^2}{u^2 + 4} right) right]_{s}^{infty} = frac{1}{4}left[0 - lnleft(frac{s^2}{s^2 + 4} right) right] = - frac{1}{4}lnleft(frac{s^2}{s^2 + 4}right)\
& = frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)
end{align}
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
$endgroup$
$begingroup$
If you're looking for other methods, I recommend taking away the 'Answered' status on my comment (many ignore answered questions). Up to you of course! Merry xmas!
$endgroup$
– DavidG
Dec 23 '18 at 10:17
add a comment |
$begingroup$
Using the double angle identity:
begin{equation}
sin^2(t) = frac{1 - cos(2t)}{2}
end{equation}
Thus,
begin{equation}
mathscr{L}left[sin^2(t)right] = frac{1}{2s} - frac{s}{2left(s^2 + 4right)}
end{equation}
We now employ the property of Laplace Transforms:
begin{equation}
mathscr{L}left[ frac{f(t)}{t} right] = int_{s}^{infty}mathscr{L}left[ f(t) right]_u:ds
end{equation}
Thus,
begin{align}
mathscr{L}left[ frac{sin^2(t)}{t} right] &= int_{s}^{infty}left[ frac{1}{2u} - frac{u}{2left(u^2 + 4right)} right]:du = left[ frac{1}{2}ln(u) - frac{1}{4}lnleft(u^2 + 4right)right]_{s}^{infty}\
& = left[frac{1}{4}lnleft(frac{u^2}{u^2 + 4} right) right]_{s}^{infty} = frac{1}{4}left[0 - lnleft(frac{s^2}{s^2 + 4} right) right] = - frac{1}{4}lnleft(frac{s^2}{s^2 + 4}right)\
& = frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)
end{align}
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
$endgroup$
Using the double angle identity:
begin{equation}
sin^2(t) = frac{1 - cos(2t)}{2}
end{equation}
Thus,
begin{equation}
mathscr{L}left[sin^2(t)right] = frac{1}{2s} - frac{s}{2left(s^2 + 4right)}
end{equation}
We now employ the property of Laplace Transforms:
begin{equation}
mathscr{L}left[ frac{f(t)}{t} right] = int_{s}^{infty}mathscr{L}left[ f(t) right]_u:ds
end{equation}
Thus,
begin{align}
mathscr{L}left[ frac{sin^2(t)}{t} right] &= int_{s}^{infty}left[ frac{1}{2u} - frac{u}{2left(u^2 + 4right)} right]:du = left[ frac{1}{2}ln(u) - frac{1}{4}lnleft(u^2 + 4right)right]_{s}^{infty}\
& = left[frac{1}{4}lnleft(frac{u^2}{u^2 + 4} right) right]_{s}^{infty} = frac{1}{4}left[0 - lnleft(frac{s^2}{s^2 + 4} right) right] = - frac{1}{4}lnleft(frac{s^2}{s^2 + 4}right)\
& = frac{1}{4}lnleft(frac{s^2 + 4}{s^2}right)
end{align}
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
answered Dec 23 '18 at 8:07
DavidGDavidG
2,4561726
2,4561726
$begingroup$
If you're looking for other methods, I recommend taking away the 'Answered' status on my comment (many ignore answered questions). Up to you of course! Merry xmas!
$endgroup$
– DavidG
Dec 23 '18 at 10:17
add a comment |
$begingroup$
If you're looking for other methods, I recommend taking away the 'Answered' status on my comment (many ignore answered questions). Up to you of course! Merry xmas!
$endgroup$
– DavidG
Dec 23 '18 at 10:17
$begingroup$
If you're looking for other methods, I recommend taking away the 'Answered' status on my comment (many ignore answered questions). Up to you of course! Merry xmas!
$endgroup$
– DavidG
Dec 23 '18 at 10:17
$begingroup$
If you're looking for other methods, I recommend taking away the 'Answered' status on my comment (many ignore answered questions). Up to you of course! Merry xmas!
$endgroup$
– DavidG
Dec 23 '18 at 10:17
add a comment |
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$begingroup$
Please see math.meta.stackexchange.com/questions/5020
$endgroup$
– Lord Shark the Unknown
Dec 23 '18 at 7:45