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A sequence is defined by the recursive function [tex]f(n+1) = \frac{1}{3} f(n)[/tex]. If [tex]f(3) = 9[/tex], what is [tex]f(1)[/tex]?

A. 1
B. 3
C. 27
D. 81

Answer :

We are given the recursive relation
[tex]$$
f(n+1)=\frac{1}{3} f(n)
$$[/tex]
and the value
[tex]$$
f(3)=9.
$$[/tex]

Since the recursion defines [tex]$f(n+1)$[/tex] in terms of [tex]$f(n)$[/tex], we can work backwards from [tex]$n = 3$[/tex] to find [tex]$f(1)$[/tex].

1. First, find [tex]$f(2)$[/tex]. The given formula can be rearranged in reverse. Since
[tex]$$
f(3)=\frac{1}{3} f(2),
$$[/tex]
multiplying both sides by [tex]$3$[/tex] gives
[tex]$$
f(2)=3 \times f(3)=3 \times 9=27.
$$[/tex]

2. Next, find [tex]$f(1)$[/tex] using the same reasoning. We have
[tex]$$
f(2)=\frac{1}{3} f(1),
$$[/tex]
and multiplying both sides by [tex]$3$[/tex] yields
[tex]$$
f(1)=3 \times f(2)=3 \times 27=81.
$$[/tex]

Thus, the value of [tex]$f(1)$[/tex] is [tex]$\boxed{81}$[/tex].

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