60,67,74,81,88, ....
MathBot Answer:
$$60,67,74,81,88,...$$The next term in this arithmetic sequence is $a_{6}=95$.
The nth term in this sequence is given by the formula:
Explicit Formula: $$a_n=7 n + 53$$
Recursive Formula: $$a_n=a_{n-1} + 7, \text{where } a_{1}=60$$
$$\begin{matrix}60&&67&&74&&81&&88\\[6pt]&+7&&+7&&+7&&+7\\[6pt]\end{matrix}$$
Explicit Formula
The formula for an arithmetic sequence where $a_1$ is the 1st term, $d$ is the common difference, and $n$ is the term number is $$a_n=a_1 + d (n - 1)$$
Find $a_1$ and $d$: $$\begin{aligned} a_1&=60 \\ d&=7 \end{aligned}$$
The nth term rule is:$$\begin{aligned} a_n&=a_1 + d (n - 1) \\ &=60 + 7 (n - 1) \\ &=7 n + 53 \end{aligned}$$
Recursive Formula
The formula for an arithmetic sequence where $a_{n-1}$ is the (n-1)th term, $d$ is the common difference, and $n>1$ is $$a_n=a_{n-1} + d$$
Find $d$: $$\begin{aligned} d=7 \end{aligned}$$
The nth term rule is:$$\begin{aligned} a_n&=a_{n-1} + d \\ &=a_{n-1} + 7 \\ &=a_{n-1} + 7 \end{aligned}$$