$int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2}dxdy$ and $int_{[0,1]} int_{[0,1]} frac...
$begingroup$
I am facing problem in calculating $$I_1=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dxdy$$ and $$I_2=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dydx$$ after substituting $x=rcos theta$ and $y=rsin theta$ we have $I_1=int_{[-pi,pi]} int_{[0,1]}frac{cos(2theta)}{r^2}rdr dtheta$ so I am getting $infty times 0=0$ So I am not getting $pi/4$ and $-pi/4$ resp.
Maybe there is a silly point I am missing. Please help.
calculus integration multivariable-calculus definite-integrals
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
$endgroup$
|
show 4 more comments
$begingroup$
I am facing problem in calculating $$I_1=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dxdy$$ and $$I_2=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dydx$$ after substituting $x=rcos theta$ and $y=rsin theta$ we have $I_1=int_{[-pi,pi]} int_{[0,1]}frac{cos(2theta)}{r^2}rdr dtheta$ so I am getting $infty times 0=0$ So I am not getting $pi/4$ and $-pi/4$ resp.
Maybe there is a silly point I am missing. Please help.
calculus integration multivariable-calculus definite-integrals
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
$endgroup$
1
$begingroup$
How about just doing the integrals, as asked, and not "substituting"?
$endgroup$
– Lord Shark the Unknown
Dec 16 '18 at 7:45
$begingroup$
Yeah I am confused in not getting. May be a result of doing a lot of pure math :( .. sorry
$endgroup$
– Gimgim
Dec 16 '18 at 7:54
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
1
$begingroup$
Its a good question and you showed some effort. Clearly a "trick" was needed.
$endgroup$
– RRL
Dec 16 '18 at 8:01
1
$begingroup$
@Gimgim: The anti-derivatives don't exactly jump out at you so we can all move on.
$endgroup$
– RRL
Dec 16 '18 at 8:16
|
show 4 more comments
$begingroup$
I am facing problem in calculating $$I_1=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dxdy$$ and $$I_2=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dydx$$ after substituting $x=rcos theta$ and $y=rsin theta$ we have $I_1=int_{[-pi,pi]} int_{[0,1]}frac{cos(2theta)}{r^2}rdr dtheta$ so I am getting $infty times 0=0$ So I am not getting $pi/4$ and $-pi/4$ resp.
Maybe there is a silly point I am missing. Please help.
calculus integration multivariable-calculus definite-integrals
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
$endgroup$
I am facing problem in calculating $$I_1=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dxdy$$ and $$I_2=int_{[0,1]} int_{[0,1]} frac {x^2-y^2}{(x^2+y^2)^2} dydx$$ after substituting $x=rcos theta$ and $y=rsin theta$ we have $I_1=int_{[-pi,pi]} int_{[0,1]}frac{cos(2theta)}{r^2}rdr dtheta$ so I am getting $infty times 0=0$ So I am not getting $pi/4$ and $-pi/4$ resp.
Maybe there is a silly point I am missing. Please help.
calculus integration multivariable-calculus definite-integrals
calculus integration multivariable-calculus definite-integrals
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
asked Dec 16 '18 at 7:44
GimgimGimgim
28313
28313
1
$begingroup$
How about just doing the integrals, as asked, and not "substituting"?
$endgroup$
– Lord Shark the Unknown
Dec 16 '18 at 7:45
$begingroup$
Yeah I am confused in not getting. May be a result of doing a lot of pure math :( .. sorry
$endgroup$
– Gimgim
Dec 16 '18 at 7:54
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
1
$begingroup$
Its a good question and you showed some effort. Clearly a "trick" was needed.
$endgroup$
– RRL
Dec 16 '18 at 8:01
1
$begingroup$
@Gimgim: The anti-derivatives don't exactly jump out at you so we can all move on.
$endgroup$
– RRL
Dec 16 '18 at 8:16
|
show 4 more comments
1
$begingroup$
How about just doing the integrals, as asked, and not "substituting"?
$endgroup$
– Lord Shark the Unknown
Dec 16 '18 at 7:45
$begingroup$
Yeah I am confused in not getting. May be a result of doing a lot of pure math :( .. sorry
$endgroup$
– Gimgim
Dec 16 '18 at 7:54
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
1
$begingroup$
Its a good question and you showed some effort. Clearly a "trick" was needed.
$endgroup$
– RRL
Dec 16 '18 at 8:01
1
$begingroup$
@Gimgim: The anti-derivatives don't exactly jump out at you so we can all move on.
$endgroup$
– RRL
Dec 16 '18 at 8:16
1
1
$begingroup$
How about just doing the integrals, as asked, and not "substituting"?
$endgroup$
– Lord Shark the Unknown
Dec 16 '18 at 7:45
$begingroup$
How about just doing the integrals, as asked, and not "substituting"?
$endgroup$
– Lord Shark the Unknown
Dec 16 '18 at 7:45
$begingroup$
Yeah I am confused in not getting. May be a result of doing a lot of pure math :( .. sorry
$endgroup$
– Gimgim
Dec 16 '18 at 7:54
$begingroup$
Yeah I am confused in not getting. May be a result of doing a lot of pure math :( .. sorry
$endgroup$
– Gimgim
Dec 16 '18 at 7:54
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
1
1
$begingroup$
Its a good question and you showed some effort. Clearly a "trick" was needed.
$endgroup$
– RRL
Dec 16 '18 at 8:01
$begingroup$
Its a good question and you showed some effort. Clearly a "trick" was needed.
$endgroup$
– RRL
Dec 16 '18 at 8:01
1
1
$begingroup$
@Gimgim: The anti-derivatives don't exactly jump out at you so we can all move on.
$endgroup$
– RRL
Dec 16 '18 at 8:16
$begingroup$
@Gimgim: The anti-derivatives don't exactly jump out at you so we can all move on.
$endgroup$
– RRL
Dec 16 '18 at 8:16
|
show 4 more comments
1 Answer
1
active
oldest
votes
$begingroup$
Hint:
$$frac {x^2-y^2}{(x^2+y^2)^2} = frac{partial}{partial y} left(frac{y}{x^2 + y^2}right) = -frac{partial}{partial x} left(frac{x}{x^2 + y^2}right) $$
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
$endgroup$
$begingroup$
Thanks a lot....
$endgroup$
– Gimgim
Dec 16 '18 at 7:58
1
$begingroup$
You're welcome. Perhaps you didn't need the second clue.
$endgroup$
– RRL
Dec 16 '18 at 7:59
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
add a comment |
Your Answer
StackExchange.ifUsing("editor", function () {
return StackExchange.using("mathjaxEditing", function () {
StackExchange.MarkdownEditor.creationCallbacks.add(function (editor, postfix) {
StackExchange.mathjaxEditing.prepareWmdForMathJax(editor, postfix, [["$", "$"], ["\\(","\\)"]]);
});
});
}, "mathjax-editing");
StackExchange.ready(function() {
var channelOptions = {
tags: "".split(" "),
id: "69"
};
initTagRenderer("".split(" "), "".split(" "), channelOptions);
StackExchange.using("externalEditor", function() {
// Have to fire editor after snippets, if snippets enabled
if (StackExchange.settings.snippets.snippetsEnabled) {
StackExchange.using("snippets", function() {
createEditor();
});
}
else {
createEditor();
}
});
function createEditor() {
StackExchange.prepareEditor({
heartbeatType: 'answer',
autoActivateHeartbeat: false,
convertImagesToLinks: true,
noModals: true,
showLowRepImageUploadWarning: true,
reputationToPostImages: 10,
bindNavPrevention: true,
postfix: "",
imageUploader: {
brandingHtml: "Powered by u003ca class="icon-imgur-white" href="https://imgur.com/"u003eu003c/au003e",
contentPolicyHtml: "User contributions licensed under u003ca href="https://creativecommons.org/licenses/by-sa/3.0/"u003ecc by-sa 3.0 with attribution requiredu003c/au003e u003ca href="https://stackoverflow.com/legal/content-policy"u003e(content policy)u003c/au003e",
allowUrls: true
},
noCode: true, onDemand: true,
discardSelector: ".discard-answer"
,immediatelyShowMarkdownHelp:true
});
}
});
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
StackExchange.ready(
function () {
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fmath.stackexchange.com%2fquestions%2f3042343%2fint-0-1-int-0-1-frac-x2-y2x2y22dxdy-and-int-0-1%23new-answer', 'question_page');
}
);
Post as a guest
Required, but never shown
1 Answer
1
active
oldest
votes
1 Answer
1
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
Hint:
$$frac {x^2-y^2}{(x^2+y^2)^2} = frac{partial}{partial y} left(frac{y}{x^2 + y^2}right) = -frac{partial}{partial x} left(frac{x}{x^2 + y^2}right) $$
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
$endgroup$
$begingroup$
Thanks a lot....
$endgroup$
– Gimgim
Dec 16 '18 at 7:58
1
$begingroup$
You're welcome. Perhaps you didn't need the second clue.
$endgroup$
– RRL
Dec 16 '18 at 7:59
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
add a comment |
$begingroup$
Hint:
$$frac {x^2-y^2}{(x^2+y^2)^2} = frac{partial}{partial y} left(frac{y}{x^2 + y^2}right) = -frac{partial}{partial x} left(frac{x}{x^2 + y^2}right) $$
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
$endgroup$
$begingroup$
Thanks a lot....
$endgroup$
– Gimgim
Dec 16 '18 at 7:58
1
$begingroup$
You're welcome. Perhaps you didn't need the second clue.
$endgroup$
– RRL
Dec 16 '18 at 7:59
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
add a comment |
$begingroup$
Hint:
$$frac {x^2-y^2}{(x^2+y^2)^2} = frac{partial}{partial y} left(frac{y}{x^2 + y^2}right) = -frac{partial}{partial x} left(frac{x}{x^2 + y^2}right) $$
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
$endgroup$
Hint:
$$frac {x^2-y^2}{(x^2+y^2)^2} = frac{partial}{partial y} left(frac{y}{x^2 + y^2}right) = -frac{partial}{partial x} left(frac{x}{x^2 + y^2}right) $$
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
edited Dec 16 '18 at 7:58
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
answered Dec 16 '18 at 7:55
RRLRRL
52.4k42573
52.4k42573
$begingroup$
Thanks a lot....
$endgroup$
– Gimgim
Dec 16 '18 at 7:58
1
$begingroup$
You're welcome. Perhaps you didn't need the second clue.
$endgroup$
– RRL
Dec 16 '18 at 7:59
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
add a comment |
$begingroup$
Thanks a lot....
$endgroup$
– Gimgim
Dec 16 '18 at 7:58
1
$begingroup$
You're welcome. Perhaps you didn't need the second clue.
$endgroup$
– RRL
Dec 16 '18 at 7:59
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
$begingroup$
Thanks a lot....
$endgroup$
– Gimgim
Dec 16 '18 at 7:58
$begingroup$
Thanks a lot....
$endgroup$
– Gimgim
Dec 16 '18 at 7:58
1
1
$begingroup$
You're welcome. Perhaps you didn't need the second clue.
$endgroup$
– RRL
Dec 16 '18 at 7:59
$begingroup$
You're welcome. Perhaps you didn't need the second clue.
$endgroup$
– RRL
Dec 16 '18 at 7:59
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
add a comment |
Thanks for contributing an answer to Mathematics Stack Exchange!
- Please be sure to answer the question. Provide details and share your research!
But avoid …
- Asking for help, clarification, or responding to other answers.
- Making statements based on opinion; back them up with references or personal experience.
Use MathJax to format equations. MathJax reference.
To learn more, see our tips on writing great answers.
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
StackExchange.ready(
function () {
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fmath.stackexchange.com%2fquestions%2f3042343%2fint-0-1-int-0-1-frac-x2-y2x2y22dxdy-and-int-0-1%23new-answer', 'question_page');
}
);
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
1
$begingroup$
How about just doing the integrals, as asked, and not "substituting"?
$endgroup$
– Lord Shark the Unknown
Dec 16 '18 at 7:45
$begingroup$
Yeah I am confused in not getting. May be a result of doing a lot of pure math :( .. sorry
$endgroup$
– Gimgim
Dec 16 '18 at 7:54
$begingroup$
Yeah I might get downvote but as I asked this question what I didn't get. So I am not going to erase the question. Thanks all of you for helping
$endgroup$
– Gimgim
Dec 16 '18 at 8:00
1
$begingroup$
Its a good question and you showed some effort. Clearly a "trick" was needed.
$endgroup$
– RRL
Dec 16 '18 at 8:01
1
$begingroup$
@Gimgim: The anti-derivatives don't exactly jump out at you so we can all move on.
$endgroup$
– RRL
Dec 16 '18 at 8:16