Given the sequence $2, 6, 12, 20,...$ what is the formula for the $n$ th term and for the sum to $n$ terms ?

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Given the sequence $2, 6, 12, 20,...$ what is the formula for the $n$ th term and for the sum to $n$ terms ?

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Answer 1 · 2016-12-17T08:28:36

Examine the differences between successive elements to find:

$a_n = n^2+n$

$s_n = 1/3n(n+1)(n+2)$

Explanation:

Given the sequence $2, 6, 12, 20$ , write it out in a line with gaps between each term:

$color(blue)(2)color(white)(00000)color(green)(6)color(white)(00000)12color(white)(00000)20$

Add a line of term below listing the differences between each pair of terms:

$color(blue)(2)color(white)(00000)color(green)(6)color(white)(00000)12color(white)(00000)20$
$color(white)(000)color(blue)(4)color(white)(00000)color(green)(6)color(white)(000000)8$

Add another line of term below listing the differences between each pair of terms:

$color(blue)(2)color(white)(00000)color(green)(6)color(white)(00000)12color(white)(00000)20$
$color(white)(000)color(blue)(4)color(white)(00000)color(green)(6)color(white)(000000)8$
$color(white)(000000)color(blue)(2)color(white)(000000)color(green)(2)$

Notice that both terms of the last line are the same.

That implies that our given sequence can be matched using a quadratic formula, which we can construct using the first term of each of the lines as a coefficient:

$a_n = color(blue)(2)/(0!) + color(blue)(4)/(1!)(n-1) + color(blue)(2)/(2!)(n-1)(n-2)$

$color(white)(a_n) = 2+4n-4+n^2-3n+2$

$color(white)(a_n) = n^2+n$

If you know the formulas for $sum_(n=1)^N n^2$ and $sum_(n=1)^N n$ then you can just add them to provide the formula for $sum_(n=1)^N a_n$ .

I would rather construct it directly:

Add another line to the top of our sequences, consisting of the sums of the terms on the original top line:

$color(blue)(0)color(white)(00000)color(green)(2)color(white)(00000)8color(white)(00000)20color(white)(00000)40$
$color(white)(000)color(blue)(2)color(white)(00000)color(green)(6)color(white)(00000)12color(white)(00000)20$
$color(white)(000000)color(blue)(4)color(white)(00000)color(green)(6)color(white)(000000)8$
$color(white)(000000000)color(blue)(2)color(white)(000000)color(green)(2)$

We want to start with $s_1 = 2$ . So ignore the first terms of each sequence and use the second terms to give us our formula for the sum to $n$ terms:

$s_n = color(green)(2)/(0!)+color(green)(6)/(1!)(n-1)+color(green)(6)/(2!)(n-1)(n-2) + color(green)(2)/(3!)(n-1)(n-2)(n-3)$

$color(white)(s_n) = 2+6n-6+3n^2-9n+6+1/3n^3-2n^2+11/3n-2$

$color(white)(s_n) = 1/3(n^3+3n^2+2n)$

$color(white)(s_n) = 1/3n(n+1)(n+2)$

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Given the sequence $2, 6, 12, 20,...$ what is the formula for the $n$ th term and for the sum to $n$ terms ?

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Explanation:

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Given the sequence $2, 6, 12, 20,...$ what is the formula for the $n$ th term and for the sum to $n$ terms ?