Numbers: Fractions
Reciprocal of a fraction
Reciprocal of a fraction
If we swap the numerator and the denominator in the fraction #\dfrac{2}{3}#, we get #\dfrac{3}{2}#. We now see that: \[\dfrac{2}{3} \times \dfrac{3}{2} =\dfrac{6}{6} = 1\]
In general, it holds that:
Two numbers are each other's reciprocal (also called inverse) if their product is #1#.
Examples
\begin{array}{rcrcr}\dfrac{3}{5} &\times& \dfrac{5}{3} &=& 1\\\dfrac{1}{10} &\times& 10 &=& 1\\-\dfrac{4}{3} &\times& -\dfrac{3}{4} &=& 1\end{array}
#{{9}\over{8}}#
If we swap the numerator and the denominator of the fraction #{{8}\over{9}}#, we find #{{9}\over{8}}#. To double-check, we multiply the numbers and check if the product equals #1#.
\[{{8}\over{9}} \times {{9}\over{8}}=1\]
Therefore, the reciprocal of #{{8}\over{9}}# equals #{{9}\over{8}}#.
If we swap the numerator and the denominator of the fraction #{{8}\over{9}}#, we find #{{9}\over{8}}#. To double-check, we multiply the numbers and check if the product equals #1#.
\[{{8}\over{9}} \times {{9}\over{8}}=1\]
Therefore, the reciprocal of #{{8}\over{9}}# equals #{{9}\over{8}}#.
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