Suppose that one Canadian dollar was worth $1. 0573$ U.S. dollar at a certain time.
a.) Find a function $f$ that gives the U.S. dollar value $f(x)$ of $x$ Canadian dollars.
b.) Find $f^{-1}$. What does $f^{-1}$ represent?
c.) How much Canadian money would $\$ 12,250$ in U.S. currency be worth?
a.) If 1 Canadian dollar = $1.0573$ U.S. dollar, then
$f(x) = 1.0573 x$
b.) To find $f^{-1}$, set $y = f(x)$
$
\begin{equation}
\begin{aligned}
y =& 1.0573 x
&& \text{Solve for $x$, divide } 1.0573
\\
\\
x =& \frac{y}{1.0573}
&& \text{Interchange $x$ and $y$}
\\
\\
y =& \frac{x}{1.0573}
&&
\end{aligned}
\end{equation}
$
Thus, $\displaystyle f^{-1} (x) = \frac{x}{1.0573}$.
If $f(x)$ represents the exchange rate of Canadian to U.S. dollar, then $f^{-1} (x)$ represents the exchange rate of U.S. dollar to Canadian dollar.
c.) If $x = \$12,250 $ U.S. dollar
then its equivalent Canadian dollar is..
$\displaystyle \frac{12,250}{1.0573} = 11,586.16$
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