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I am supposed to solve the following using implicit differentiation.

$\sin\left(\frac{x}{y}\right)+\ln(y)=xy$

This is what I have so far:

$\cos\left(\frac{x}{y}\right)\frac{d}{dx}\left(\frac{x}{y}\right)+\frac{d}{dx}\big(\ln(y)\big)=y+x\frac{dy}{dx}$

My problem here is differentiating the fraction as well as the $\ln y$, especially since $\ln y$ does not contain $x$ to differentiate towards.

Thanks for your help in understanding this.

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    Judging by the right hand side, $y$ appears to be a function of $x$. Then you can also use the chain rule on the left hand side, for example $\frac{d}{dx} \ln y = \frac{1}{y} \frac{dy}{dx}$.2012-08-12

3 Answers 3

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Keep doing what you did on the right-hand side to get

$\cos\left(\frac{x}{y}\right)\frac{d}{dx}\left(\frac{x}{y}\right)+\frac{d}{dx}\big(\ln(y)\big)=y+x\frac{dy}{dx}\;.\tag{1}$

You have

$\frac{d}{dx}\left(\frac{x}y\right)=\frac{y\cdot1-x\frac{dy}{dx}}{y^2}=\frac1y-\frac{x}{y^2}\frac{dy}{dx}$

and

$\frac{d}{dx}\ln y=\frac1y\frac{dy}{dx}\;;$

both of these are just applications of the chain rule (together with the quotient rule and the rule for differentiating the natural log). Now for convenience I’ll write $y'$ for $dy/dx$; then $(1)$ becomes

$\cos\left(\frac{x}y\right)\left(\frac1y-\frac{x}{y^2}y'\right)+\frac{y'}y=y+xy'\;,$

and all that remains is to solve for $y'$.

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    @Michael: Gah. That was really awful: I also managed to louse up the right-hand side by reading the wrong line, but it’s fixed now. Thanks for catching it.2012-08-12
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Try to just grit your teeth and apply the rules exactly as you know them in these problems. On your last issue, note that $\ln(y)$ does contain an $x$, when you consider that $y=y(x)$ is a function of $x$, so we'll be able to use the chain rule.

Specifically, you know the derivative of $\log(f(x))=\frac{f'(x)}{f(x)}$. So, when $f$ is $y$,...

As to the fraction, again just apply the quotient rule. Denominator times derivative of numerator minus numerator times derivative of denominator-you know all those things, right?-over denominator squared.

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$\sin(x/y) + \ln y = xy$

$\frac{\cos(x/y)(y-xy')}{y^2} + \frac{y'}{y} =xy' + y$

$\frac{y\cos(x/y) - xy'\cos(x/y)}{y^2} + \frac{y'}{y} = (xy' + y)\mid ~~\times ~~y^2$

we have

$y\cos(x/y) - xy'\cos(x/y) + yy' = xy^2y' + y^3$

$yy' - xy'\cos(x/y) - xy^2y' =y^3 - y\cos(x/y)$

$y'(y-x\cos(x/y)-xy^2)=y^3 - y\cos(x/y)$

$y'= \frac{y^3-y\cos(x/y)}{y-x\cos(x/y)-xy^2}$

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    This is very hard to read. Please use latex/mathjax to write math in questions and answers on this site. It is not hard to learn, take a look at [this page](http://meta.math.stackexchange.com/questions/5020/mathjax-basic-tutorial-and-quick-reference).2015-09-30