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Difference between revisions of "Root (operation)"

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(Definition)
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==Definition==
 
==Definition==
For any (not necessarily real) numbers <math>x,y,n</math>, <math>y=\sqrt[n]{x}</math> if <math>y^n-x</math>. Note that we generally take only the positive value of <math>y</math>, if we wish to take both the positive and negative roots, we write <math>\pm\sqrt[n]{x}</math>.
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For any (not necessarily real) numbers <math>x,y,n</math>, <math>y=\sqrt[n]{x}</math> if <math>y^n=x</math>. Note that we generally take only the positive value of <math>y</math>, if we wish to take both the positive and negative roots, we write <math>\pm\sqrt[n]{x}</math>.
  
 
==See Also==
 
==See Also==

Revision as of 17:31, 28 October 2012

The $n$th root of a number $x$, denoted by $\sqrt[n]{x}$, is a common operation on numbers and a partial inverse to exponentiation. (The proper inverse is the logarithm)

Definition

For any (not necessarily real) numbers $x,y,n$, $y=\sqrt[n]{x}$ if $y^n=x$. Note that we generally take only the positive value of $y$, if we wish to take both the positive and negative roots, we write $\pm\sqrt[n]{x}$.

See Also

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