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Possible Duplicate:
Square roots — positive and negative

$\sqrt{4} = -2$. WolframAlpha says "false"!

Now lets take a deeper look to my idea.

Well...we know that,

$2^2 = 4 \iff \sqrt{4} = 2$

$(-2)^2 = 4$ so why can't $\sqrt{4}$ be equal to $-2$?

I'm a little bit confused

// Thank you for all your answers, I have answer now. Stepo

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    Just a quick supplement to the answers you got - it may help to think about $\sqrt{x}$ as the side length of a square with area $x$.2018-02-12

3 Answers 3

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You are correct that $(-2)^2 = 4$.

The idea is that we want $\sqrt{x}$ to be a continuous, single valued function. But as you noted there are two possibile values of $\sqrt{x}$ for each $x$, so we have to choose a particular branch and that is what we call $\sqrt{x}$.

So the standard choice is to just take positive $\sqrt{x}$ for every $x$.

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It's just notation most likely. Yes, $(-2)^2 = 4$, but often the $\sqrt{4}$ symbol is reserved for the positive square root, so $\sqrt{4} = 2$. If you want the negative square root, that would be $-\sqrt{4} = -2$. Both $-2$ and $2$ are square roots of $4$, but the notation $\sqrt{4}$ corresponds to only the positive square root.

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By definition, $\sqrt{x^2} = \vert x \vert$ for $x \in \mathbb{R}$.

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    In reality, we know what a square root is before we define $\sqrt{}$, and so we define that symbol to mean the positive square root. But, I've never seen any one define what $\sqrt{}$ means by $\sqrt{x^2} = |x|$. I guess it's just a more complicated way of saying the same thing. Since your reputation is 7 times mine, I will defer to you :)2012-10-30