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22 votes
22 votes
What is the explicit rule for the geometric sequence?

500, 100, 20, 4, ...

User Omari Celestine
by
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2 Answers

13 votes
13 votes

Answer:

Explanation:

By definition:

" Geometric progression - a sequence of numbers b₁, b₂, b₃ ... (members of the progression), in which each subsequent number, starting from the second, is obtained from the previous member by multiplying it by a certain number q (the denominator of the progression)"

bₙ = bₙ₋₁*q

q = bₙ / bₙ₋₁

For example:

q = b₃ / b₂ = 20 /100 = 1/5

User Geedelur
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3.0k points
16 votes
16 votes

Answer:

nth term is


\begin{equation*}% \mbox{\large\( %a_n = 500\cdot \left((1)/(5)\right)^(n-1)\)} %\end{equation*}\\\\
\begin{equation*}% \mbox{\large\( %a_n = 500\cdot ((1)/(5))^(n-1)\)} %\end{equation*}
a_n = 500 \cdot \left((1)/(5)\right)^(n-1)


\\\textrm {$a_n$ is the nth term $500$ is the first term and $(1)/(5)$ is the common ratio $(a_n)/(a_(n-1))$}

Explanation:

For a geometric sequence, the rule is


\begin{equation*}% \mbox{\large\( %a_n =a_1 * r^(n-1)\)} %\end{equation*}
a_n = a_(n-1) \cdot r^(n-1)

where


\\\textrm {$a_n$ is the nth term$a_1$ is the first termand$r$ is the common ratio $(a_n)/(a_(n-1))$}

Here you can see that each term is one-fifth of the previous term

So


r = (1)/(5)

First term is 500

So nth term


\begin{equation*}% \mbox{\large\( %a_n = 500\cdot \left((1)/(5)\right)^(n-1)\)} %\end{equation*}
a_n = 500 \cdot \left((1)/(5)\right)^(n-1)

User Grigson
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3.5k points