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Given a simple equation....

$\ (x+1)^2 =21 $

if we take the under root of both sides , we get

$\ x+1 = \pm \sqrt{21} $

why dont we get a $ \pm $ on the left hand side ?

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    Having $\pm$ on the left also doesn't change the outcome. If the left side is "plus", nothing changes. If the left side is "minus", you could just multiply by $-1$ ...2012-01-03

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$a = \pm b$ is shorthand for saying "we don't know what $a$ is, but it has to be either $b$ or $-b$". If you wrote $\pm a = \pm b$ then what you're saying is that

$ \begin{align} \text{either} & (1) & a&=b \\ \text{or } & (2) & a&=-b \\ \text{or } & (3) & -a&=b \\ \text{or } & (4) & -a&=-b \end{align} $

But $(1)$ is the same as $(4)$ and $(2)$ is the same as $(3)$, so the first $\pm$ sign is redundant.

You could write $\pm (x+1) = \sqrt{21}$ if you so wished, but it's fairly clear that writing $x+1 = \pm \sqrt{21}$ facilitates solving for $x$.

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    Thanks again .... perfect !2012-02-12
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You need to understand why we put a $\pm$ sign in the first place. When we say that $ x^2 = a > 0 \qquad \Longleftrightarrow \qquad x = \pm \sqrt a, $ It is because we want to say $ x^2 = a > 0 \qquad \Longleftrightarrow \quad x \in \{ \sqrt a, -\sqrt a \}. $ The $\pm$ is just a short hand. In other words, when you see a $\pm$ sign, you need to understand that it doesn't mean that "the equation holds whether we put a minus or a plus sign in there", but think of it more as like "the variable on the left-hand side can take on the values of the right-hand side, whether the $\pm$ is actually a $+$ or a $-$.

Hope that helps,

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    Indeed, I agree2012-01-03
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Really, you should, since $\sqrt{a^2}=|a|$.

You have $ (x+1)^2=21 $ which is equivalent to $ |(x+1)|= \sqrt{21}. $ Since $|x+1|$ is either $x+1$ or $-(x+1)$ and since $|x+1|=|-(x+1)|$, the above equation is satisfied if and only if either $\tag{1}x+1=\sqrt{21}\quad\text{or}\quad-(x+1)=\sqrt{21}.$ This is written in shorthand as:

$ \pm (x+1)= \sqrt{21}. $ and read as "$x+1$ is $\sqrt{21}$ or $-(x+1)$ is $\sqrt{21}$".

Now (1) is equivalent to $\tag{2} x+1=\sqrt{21}\quad\text{or}\quad(x+1)=-\sqrt{21}.$

And (2) is written in shorthand as $ (x+1)=\pm\sqrt{21}. $

This is preferable, since it allows you to solve for $x$ in an expeditious mannar:

$x=-1\pm\sqrt{21}.$

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I'd say some people here are thinking of this backwards. This is how the train of thought should go. Just think about it from the most basic standpoint:

$x^2 =49$, this asks: what value(s) of x equal 49?

We know the answer right away: it could be either 7 or -7 based on normal multiplication with real numbers. Now, this can then be written $x=7,-7$, or $x=\pm7$. Which can then be written $|x|=7$. It can be written as an absolute value because of the definition of absolute value, which is:

$ |x|=\cases{x,\ \ \ \ \text{when} \ x\ge0 \\-x, \ \text{when} \ x<0 }$

Now, let's go back to the beginning, forgetting about the absolute value definition/notation for a minute. Since we know the solutions to our problem have to be either $7$ or $-7$, which can be written as $\pm 7$, then to make the solve and get:

$x=\pm7 \ $from our problem: $x^2=49$

then that means that $\sqrt{x^2}=\pm7= x =\pm \sqrt{49}$

The reason absolute value comes into play is just because of its definition. Because of our example above, combined with the previous given definition of absolute value, mathematicians define:

${\sqrt{x^2}=|x|}$

It is a shortcut based on knowledge of multiplication and absolute value definition/notation (that's always true) to write:

$\sqrt{x^2}=|x|=7$

It's also a shortcut to write:

$\sqrt{x^2}=\pm \sqrt{49}$

The reason not to use $\pm$ when no variables are in play is because of two things:

(1): $7^2=49$ or $(-7)^2=49$, aren't a questions at all, they're just true statements.

(2): If you are given a simple expression such as $\sqrt{49}$, standard math notation dictates that it equals $7$. This is just by convention. No $+$ symbol is required and this can be read "positive root of 49" or "principal root of 49".

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It's the same whether you take $\pm$ on LHS or RHS. Results obtained using $\pm$ on either side are ultimateley the same. In general, it is customary to write $\pm$ on RHS, since equations are written traditionally in the format LHS=RHS where LHS has argument/variables and RHS has their value.

So, it makes more sense to assign the signs to value rather than variables (in my opinion).

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More interesting is to check out what happens with an inequality:

$ y^2 \le 4 $

Since the y-values that satisfy the inequality are between -2 to 2, we write:

$ |y| \le 2 $

Without using any step showing plus/minus. In any equation or inequation all we're doing is trying to show which values satisfy it. Thinking of mathematics as a set 'rules' to follow isn't the best way to go about doing it.