$int_{0}^{2pi} frac{cos{3theta}}{5-4cos{theta}},d{theta}$ by using real integration
$begingroup$
How to evaluate $int_{0}^{2pi} frac{cos{3theta}}{5-4cos{theta}},d{theta}$
by using complex integration?
I assume $z=e^{i{theta}}$, $frac{1}{iz}dz=d{theta}$,
$$cos{theta}=frac{z+z^{-1}}{2}
quadmbox{and}quad cos3{theta}=frac{(z+z^{-1})(z^2+z^{-2}-1)}{2}.$$
Hence
$$frac{1}{2i}oint_{|z|=1} frac{{(z+z^{-1})(z^2+z^{-2}-1)}}{(5-4frac{z+z^{-1}}{2})z},dz$$
and I'm stuck in this. Could you give me a hints or solution?
integration contour-integration complex-integration
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
asked Nov 8 '16 at 11:58
matthewmatthew
709
$endgroup$
add a comment |
$begingroup$
How to evaluate $int_{0}^{2pi} frac{cos{3theta}}{5-4cos{theta}},d{theta}$
by using complex integration?
I assume $z=e^{i{theta}}$, $frac{1}{iz}dz=d{theta}$,
$$cos{theta}=frac{z+z^{-1}}{2}
quadmbox{and}quad cos3{theta}=frac{(z+z^{-1})(z^2+z^{-2}-1)}{2}.$$
Hence
$$frac{1}{2i}oint_{|z|=1} frac{{(z+z^{-1})(z^2+z^{-2}-1)}}{(5-4frac{z+z^{-1}}{2})z},dz$$
and I'm stuck in this. Could you give me a hints or solution?
integration contour-integration complex-integration
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
asked Nov 8 '16 at 11:58
matthewmatthew
709
$endgroup$
3
$begingroup$
I guess you meant “complex” in the title of the question, not “real”?
$endgroup$
– Hans Lundmark
Nov 8 '16 at 12:42
$begingroup$
I'm studying example of Radius integration of real integrals part in engineering mathmatics. so I put that title as a connectivity
$endgroup$
– matthew
Nov 8 '16 at 12:46
add a comment |
$begingroup$
How to evaluate $int_{0}^{2pi} frac{cos{3theta}}{5-4cos{theta}},d{theta}$
by using complex integration?
I assume $z=e^{i{theta}}$, $frac{1}{iz}dz=d{theta}$,
$$cos{theta}=frac{z+z^{-1}}{2}
quadmbox{and}quad cos3{theta}=frac{(z+z^{-1})(z^2+z^{-2}-1)}{2}.$$
Hence
$$frac{1}{2i}oint_{|z|=1} frac{{(z+z^{-1})(z^2+z^{-2}-1)}}{(5-4frac{z+z^{-1}}{2})z},dz$$
and I'm stuck in this. Could you give me a hints or solution?
integration contour-integration complex-integration
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
asked Nov 8 '16 at 11:58
matthewmatthew
709
$endgroup$
How to evaluate $int_{0}^{2pi} frac{cos{3theta}}{5-4cos{theta}},d{theta}$
by using complex integration?
I assume $z=e^{i{theta}}$, $frac{1}{iz}dz=d{theta}$,
$$cos{theta}=frac{z+z^{-1}}{2}
quadmbox{and}quad cos3{theta}=frac{(z+z^{-1})(z^2+z^{-2}-1)}{2}.$$
Hence
$$frac{1}{2i}oint_{|z|=1} frac{{(z+z^{-1})(z^2+z^{-2}-1)}}{(5-4frac{z+z^{-1}}{2})z},dz$$
and I'm stuck in this. Could you give me a hints or solution?
integration contour-integration complex-integration
integration contour-integration complex-integration
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
asked Nov 8 '16 at 11:58
matthewmatthew
709
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
asked Nov 8 '16 at 11:58
matthewmatthew
709
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
edited Nov 8 '16 at 12:30
Robert Z
97.7k1066137
97.7k1066137
asked Nov 8 '16 at 11:58
matthewmatthew
709
asked Nov 8 '16 at 11:58
matthewmatthew
709
asked Nov 8 '16 at 11:58
matthewmatthew
709
709
3
$begingroup$
I guess you meant “complex” in the title of the question, not “real”?
$endgroup$
– Hans Lundmark
Nov 8 '16 at 12:42
$begingroup$
I'm studying example of Radius integration of real integrals part in engineering mathmatics. so I put that title as a connectivity
$endgroup$
– matthew
Nov 8 '16 at 12:46
add a comment |
3
$begingroup$
I guess you meant “complex” in the title of the question, not “real”?
$endgroup$
– Hans Lundmark
Nov 8 '16 at 12:42
$begingroup$
I'm studying example of Radius integration of real integrals part in engineering mathmatics. so I put that title as a connectivity
$endgroup$
– matthew
Nov 8 '16 at 12:46
3
3
$begingroup$
I guess you meant “complex” in the title of the question, not “real”?
$endgroup$
– Hans Lundmark
Nov 8 '16 at 12:42
$begingroup$
I guess you meant “complex” in the title of the question, not “real”?
$endgroup$
– Hans Lundmark
Nov 8 '16 at 12:42
$begingroup$
I'm studying example of Radius integration of real integrals part in engineering mathmatics. so I put that title as a connectivity
$endgroup$
– matthew
Nov 8 '16 at 12:46
$begingroup$
I'm studying example of Radius integration of real integrals part in engineering mathmatics. so I put that title as a connectivity
$endgroup$
– matthew
Nov 8 '16 at 12:46
add a comment |
1 Answer
1
active
oldest
votes
$begingroup$
You are on the right track. Now you should use the Residue theorem and find the residues of the integrand at 0 and at $1/2$ (the poles inside the unit circle. The final result should be $frac{pi}{12}$.
$$int_{0}^{2pi} frac{cos 3theta }{5-4cos{theta}},d{theta}=
frac{i}{4}int_{|z|=1}frac{z^6+1
}{z^3(z-frac{1}{2})(z-2)},dz=-frac{pi}{2}left(mbox{Res}(f,0)+mbox{Res}(f,1/2)right)$$
where $f$ is the integrand function.
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
$endgroup$
$begingroup$
How did you get z at 0 and$frac{1}{2}$?? I mean I'm stuck in calculation to find z..
$endgroup$
– matthew
Nov 8 '16 at 12:20
1
$begingroup$
@matthew Just simplify and factor your integrand function. I edited my answer with more details.
$endgroup$
– Robert Z
Nov 8 '16 at 12:25
add a comment |
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1 Answer
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1 Answer
1
active
oldest
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oldest
votes
$begingroup$
You are on the right track. Now you should use the Residue theorem and find the residues of the integrand at 0 and at $1/2$ (the poles inside the unit circle. The final result should be $frac{pi}{12}$.
$$int_{0}^{2pi} frac{cos 3theta }{5-4cos{theta}},d{theta}=
frac{i}{4}int_{|z|=1}frac{z^6+1
}{z^3(z-frac{1}{2})(z-2)},dz=-frac{pi}{2}left(mbox{Res}(f,0)+mbox{Res}(f,1/2)right)$$
where $f$ is the integrand function.
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
$endgroup$
$begingroup$
How did you get z at 0 and$frac{1}{2}$?? I mean I'm stuck in calculation to find z..
$endgroup$
– matthew
Nov 8 '16 at 12:20
1
$begingroup$
@matthew Just simplify and factor your integrand function. I edited my answer with more details.
$endgroup$
– Robert Z
Nov 8 '16 at 12:25
add a comment |
$begingroup$
You are on the right track. Now you should use the Residue theorem and find the residues of the integrand at 0 and at $1/2$ (the poles inside the unit circle. The final result should be $frac{pi}{12}$.
$$int_{0}^{2pi} frac{cos 3theta }{5-4cos{theta}},d{theta}=
frac{i}{4}int_{|z|=1}frac{z^6+1
}{z^3(z-frac{1}{2})(z-2)},dz=-frac{pi}{2}left(mbox{Res}(f,0)+mbox{Res}(f,1/2)right)$$
where $f$ is the integrand function.
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
$endgroup$
$begingroup$
How did you get z at 0 and$frac{1}{2}$?? I mean I'm stuck in calculation to find z..
$endgroup$
– matthew
Nov 8 '16 at 12:20
1
$begingroup$
@matthew Just simplify and factor your integrand function. I edited my answer with more details.
$endgroup$
– Robert Z
Nov 8 '16 at 12:25
add a comment |
$begingroup$
You are on the right track. Now you should use the Residue theorem and find the residues of the integrand at 0 and at $1/2$ (the poles inside the unit circle. The final result should be $frac{pi}{12}$.
$$int_{0}^{2pi} frac{cos 3theta }{5-4cos{theta}},d{theta}=
frac{i}{4}int_{|z|=1}frac{z^6+1
}{z^3(z-frac{1}{2})(z-2)},dz=-frac{pi}{2}left(mbox{Res}(f,0)+mbox{Res}(f,1/2)right)$$
where $f$ is the integrand function.
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
$endgroup$
You are on the right track. Now you should use the Residue theorem and find the residues of the integrand at 0 and at $1/2$ (the poles inside the unit circle. The final result should be $frac{pi}{12}$.
$$int_{0}^{2pi} frac{cos 3theta }{5-4cos{theta}},d{theta}=
frac{i}{4}int_{|z|=1}frac{z^6+1
}{z^3(z-frac{1}{2})(z-2)},dz=-frac{pi}{2}left(mbox{Res}(f,0)+mbox{Res}(f,1/2)right)$$
where $f$ is the integrand function.
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
edited Nov 8 '16 at 12:33
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
answered Nov 8 '16 at 12:16
Robert ZRobert Z
97.7k1066137
97.7k1066137
$begingroup$
How did you get z at 0 and$frac{1}{2}$?? I mean I'm stuck in calculation to find z..
$endgroup$
– matthew
Nov 8 '16 at 12:20
1
$begingroup$
@matthew Just simplify and factor your integrand function. I edited my answer with more details.
$endgroup$
– Robert Z
Nov 8 '16 at 12:25
add a comment |
$begingroup$
How did you get z at 0 and$frac{1}{2}$?? I mean I'm stuck in calculation to find z..
$endgroup$
– matthew
Nov 8 '16 at 12:20
1
$begingroup$
@matthew Just simplify and factor your integrand function. I edited my answer with more details.
$endgroup$
– Robert Z
Nov 8 '16 at 12:25
$begingroup$
How did you get z at 0 and$frac{1}{2}$?? I mean I'm stuck in calculation to find z..
$endgroup$
– matthew
Nov 8 '16 at 12:20
$begingroup$
How did you get z at 0 and$frac{1}{2}$?? I mean I'm stuck in calculation to find z..
$endgroup$
– matthew
Nov 8 '16 at 12:20
1
1
$begingroup$
@matthew Just simplify and factor your integrand function. I edited my answer with more details.
$endgroup$
– Robert Z
Nov 8 '16 at 12:25
$begingroup$
@matthew Just simplify and factor your integrand function. I edited my answer with more details.
$endgroup$
– Robert Z
Nov 8 '16 at 12:25
add a comment |
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$begingroup$
I guess you meant “complex” in the title of the question, not “real”?
$endgroup$
– Hans Lundmark
Nov 8 '16 at 12:42
$begingroup$
I'm studying example of Radius integration of real integrals part in engineering mathmatics. so I put that title as a connectivity
$endgroup$
– matthew
Nov 8 '16 at 12:46