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Lets say you have a quadratic that you factor into root form. To solve for the roots, you let the $y$ value be $0$:

$0 = (x_1-h)(x_2-k)$

Following this you would divide both sides by one of the multipliers. This would leave you with $x_1-h =0$ and therefore $x_1 =h$ and $x_2-k = 0$ and therefore $x_2 = k$.

However since the product of both the multipliers is zero, one of them has to be zero (the product of two or more numbers can't be zero unless atleast one of them is zero). Therefore, aren't you essentially dividing by zero by dividing by one of the multipliers?

For example, $x_1-h = 0$. To solve for $x_2$, you would do the following:

$0 = (x_1-h)(x_2-k)$

$\frac{0}{x_1-h} = \frac{(x_1-h)(x_2-k)}{(x_1-h)}$

$0 = x_2 - k$

$x_2 = k$

However, since $x_1 -h = 0$, didn't you essentially divide by zero to solve for $x_2$? Wouldn't this classify as undefined behaviour?

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    The equation $0 = (x_1-h)(x_2-k)$ is not an equation in $x$. Is it correct? Or is it e.g. $0 = (x-h)(x-k)$ or $0 = (x-x_1)(x-x_2)$?2012-06-09

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I wouldn’t divide by one of the factors. I would simply observe that $(x-h)(x-k)=0$ if and only if at least one of $x-h$ and $x-k$ is $0$: $(x-h)(x-k)=0$ if and only if $x-h=0$ or $x-k=0$, which is the case if and only if $x=h$ or $x=k$. At no stage of the reasoning is any division required.

Added: If you want to go to the trouble of thinking of it in terms of division, you can, but you have to be careful. Start with $(x-h)(x-k)=0$. You can then argue that if $x-h\ne 0$, then you can divide through by it to get $x-k=\frac0{x-h}=0$ and hence $x=k$. If, on the other hand, $x-h=0$, then $x=h$. Thus, either $x=k$ or $x=h$.

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    @Riddler: You’re looking for the values of $x$ that make $(x-h)(x-k)=0$. You know that $(x-h)(x-k)=0$ precisely when either $x-h=0$ **or** $x-k=0$. Thus, each of those two linear equations provides a solution of the original quadratic. Of course they’re simultaneous solutions only when $h=k$.2012-06-09
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Why would you divide $0 = (x-h)(x-k)$ by $x-h$ or $x-k$? (As you say this is a division by zero if $x = h$ or $x = k$, and you need to distinguish several different cases.)

Just conclude that $x-h = 0$ or $x -k = 0$. (Using the fact that if a product of two real numbers is $0$, then at least one of the factors must be $0$ as well.)

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    @Riddler Both can't be zero (unless $h=k$). Look at the equation $(x-1)(x-2) = 0$. Certainly $x$ can't be equal to $1$ and $2$ at the same time.2012-06-09