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How do you solve for $x$ when $x$ is in the denominator?

E.g.

$10 = \frac{g-1}{x}$

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    If there is no $x$ in the numerator, just flip both sides over so that $x$ is where you like it to be: $\frac{1}{10}=\frac{x}{g-1}$.2011-11-23

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Zillions of undergraduates with no interest in mathematics but a fair amount of interest in "surviving" required math courses will reflexively say "cross-multiply!". And in this case, they'd be right. But maybe they'd miss it because they don't quite see two fractions: $ \begin{align} \frac{10}{1} & = \frac{g-1}{x} \\ \\ \\ 10x & = 1(g-1) \end{align} $ then divide both sides by $10$.

(Then you have to talk them out of "cross-multiplying" when they see $\dfrac ab - \dfrac cd$ and claim that it's of course equal to $ad - bc$, etc.)

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    @methusaleh: ...and if you _do_ mean $x-\frac 31=\frac yx-2$, first write both sides with a common denominator (i.e. $\frac{x-3}1=\frac{y-2x}x$) and then cross-multiply. (Or just multiply both sides with $x$; multiplying or dividing by 1 makes no difference anyway.)2011-11-24
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You can use the technique of "clearing denominators". To do so, just multiply both sides of the equation by whatever denominator you wish to get rid of. $ \begin{align*} 10 &= \frac{g-1}{x}\\ 10 \cdot x &= \frac{g-1}{x} \cdot x\\ 10x &= g-1. \end{align*} $ No matter how many denominators there are, you can use this trick to clear them all. Now you have a much simpler equation to work with.

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    Y'$a$ll m$a$ke this look so e$a$sy!!!! I think my head id going to fall off!2012-12-30