Solution 3.1:2g
From Förberedande kurs i matematik 1
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| - | {{ | + | Because |
| - | < | + | <math>-\text{125 }</math> |
| - | {{ | + | can be written as |
| + | <math>-125=\left( -5 \right)\centerdot \left( -5 \right)\centerdot \left( -5 \right)=\left( -5 \right)^{3}</math>, | ||
| + | <math>\sqrt[3]{-125}</math> | ||
| + | is defined as | ||
| + | |||
| + | |||
| + | <math>\sqrt[3]{-125}=-5</math> | ||
| + | |||
| + | |||
| + | NOTE: As opposed to | ||
| + | <math>\sqrt{-125}</math> | ||
| + | (the square root of | ||
| + | <math>-125</math> | ||
| + | ) which is not defined, | ||
| + | <math>\sqrt[3]{-125}</math> | ||
| + | is defined . In other words, there does not exist any number which satisfies | ||
| + | <math>x^{\text{2}}=-\text{125}</math>, but there is a number | ||
| + | <math>x</math> | ||
| + | which satisfies | ||
| + | <math>x^{\text{3}}=-\text{125}</math>. | ||
| + | |||
| + | NOTE: It is possible to write the calculation in the solution as | ||
| + | <math>\sqrt[3]{-125}=\sqrt[3]{\left( -5 \right)^{3}}=\left( -5 \right)^{1}=-5</math>, but one has to be careful when one calculates using negative numbers and fractional exponents. Sometimes, the expression is not defined and the usual power rules do not always hold. Look, for example, at the calculation | ||
| + | |||
| + | |||
| + | <math>\begin{align} | ||
| + | & -5=\left( -125 \right)^{{1}/{3}\;}=\left( -125 \right)^{{2}/{6}\;}=\left( \left( -125 \right)^{2} \right)^{{1}/{6}\;} \\ | ||
| + | & =15625^{{1}/{6}\;}=5 \\ | ||
| + | \end{align}</math> | ||
Revision as of 09:00, 30 September 2008
Because \displaystyle -\text{125 } can be written as \displaystyle -125=\left( -5 \right)\centerdot \left( -5 \right)\centerdot \left( -5 \right)=\left( -5 \right)^{3}, \displaystyle \sqrt[3]{-125} is defined as
\displaystyle \sqrt[3]{-125}=-5
NOTE: As opposed to
\displaystyle \sqrt{-125}
(the square root of
\displaystyle -125
) which is not defined,
\displaystyle \sqrt[3]{-125}
is defined . In other words, there does not exist any number which satisfies
\displaystyle x^{\text{2}}=-\text{125}, but there is a number
\displaystyle x
which satisfies
\displaystyle x^{\text{3}}=-\text{125}.
NOTE: It is possible to write the calculation in the solution as \displaystyle \sqrt[3]{-125}=\sqrt[3]{\left( -5 \right)^{3}}=\left( -5 \right)^{1}=-5, but one has to be careful when one calculates using negative numbers and fractional exponents. Sometimes, the expression is not defined and the usual power rules do not always hold. Look, for example, at the calculation
\displaystyle \begin{align}
& -5=\left( -125 \right)^{{1}/{3}\;}=\left( -125 \right)^{{2}/{6}\;}=\left( \left( -125 \right)^{2} \right)^{{1}/{6}\;} \\
& =15625^{{1}/{6}\;}=5 \\
\end{align}
