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The table below shows the cost of making a long-distance call based on the length of the call.

\begin{tabular}{|c|c|}
\hline
\textbf{Time (minutes)} & \textbf{Cost} \\
\hline 5 & \[tex]$0.55 \\
\hline 6 & \$[/tex]0.62 \\
\hline 7 & \[tex]$0.69 \\
\hline 8 & \$[/tex]0.76 \\
\hline 9 & \[tex]$0.83 \\
\hline 10 & \$[/tex]0.90 \\
\hline
\end{tabular}

Refer to the above table of long-distance rates. Write an expression that can be used to find the cost of an [tex]$n$[/tex]-minute long-distance call, where [tex]$n$[/tex] is at least 5 minutes.

A. [tex]$a(n) = (0.55 + 0.07)(n - 5)$[/tex]
B. [tex]$a(n) = 0.55 + (n - 5) \cdot 0.07$[/tex]
C. [tex]$a(n) = 0.08n$[/tex]
D. [tex]$a(n) = 0.55 + 0.07n$[/tex]

Sagot :

GinnyAnsweridn
To determine the cost of an [tex]\( n \)[/tex]-minute long distance call, we need to derive a mathematical expression based on the given data in the table. Let's go through the steps together:

1. Understand the pattern in the table:
- For a 5-minute call, the cost is [tex]$0.55. - For a 6-minute call, the cost is $[/tex]0.62.
- For a 7-minute call, the cost is [tex]$0.69. - For an 8-minute call, the cost is $[/tex]0.76.
- For a 9-minute call, the cost is [tex]$0.83. - For a 10-minute call, the cost is $[/tex]0.90.

2. Determine the incremental cost:
- Notice how the cost increases as the call duration increases by one minute.
- The incremental cost per additional minute is constant. For example:
- From 5 to 6 minutes, the cost increases by [tex]$0.07 ($[/tex]0.62 - [tex]$0.55). - From 6 to 7 minutes, it increases by $[/tex]0.07 ([tex]$0.69 - $[/tex]0.62).
- This same increase of [tex]$0.07 applies for each additional minute. 3. Formulate the expression: - The base cost for the first 5 minutes is $[/tex]0.55.
- Each additional minute beyond the initial 5 minutes incurs an extra cost of $0.07.
- Therefore, for a call lasting [tex]\( n \)[/tex] minutes, where [tex]\( n \)[/tex] is at least 5, the extra cost due to the additional [tex]\( n - 5 \)[/tex] minutes is [tex]\( (n - 5) \times 0.07 \)[/tex].

4. Write the expression:
- The cost of an [tex]\( n \)[/tex]-minute call can be written as the sum of the base cost and the incremental costs.
- Thus, the expression for the cost [tex]\( a(n) \)[/tex] of an [tex]\( n \)[/tex]-minute call is:
[tex]\[ a(n) = 0.55 + (n - 5) \times 0.07 \][/tex]

This matches with the expression provided, which is:
[tex]\[ a(n) = 0.55 + (n - 5) \times 0.07 \][/tex]

Therefore, the expression that can be used to find the cost of an [tex]\( n \)[/tex]-minute long distance call, where [tex]\( n \)[/tex] is at least 5 minutes, is:
[tex]\[ a(n) = 0.55 + (n - 5) \times 0.07 \][/tex]

Among the given options, this is equivalent to:

[tex]\[ a(n) = 0.55 + (n - 5) \times 0.07 \][/tex]
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