Find the sum of series whose nth term is given by #n( n + 1) ( n + 4)#?
1 Answer
Explanation:
Given:
#a_n = n(n+1)(n+4)#
Note that this is a cubic formula, so the formula for the sum to
We can find it using a method of differences.
One advantage of this method is that you do not have to memorise formulas for
The first few terms of the given sequence are:
#a_1 = 1 * 2 * 5 = 10#
#a_2 = 2 * 3 * 6 = 36#
#a_3 = 3 * 4 * 7 = 84#
#a_4 = 4 * 5 * 8 = 160#
#a_5 = 5 * 6 * 9 = 270#
#a_6 = 6 * 7 * 10 = 420#
#a_7 = 7 * 8 * 11 = 616#
(Note that I have calculated a couple more terms here than is really necessary, but it makes the analysis below more "compelling").
Writing down the sequence of the first few sums (
#color(blue)(10), 46, 130, 290, 560, 980, 1596#
Then the sequence of differences between consecutive terms is:
#color(blue)(36), 84, 160, 270, 420, 616#
The sequence of differences of those differences is:
#color(blue)(48), 76, 110, 150, 196#
The sequence of differences of those differences is:
#color(blue)(28), 34, 40, 46#
The sequence of differences of those differences is:
#color(blue)(6), 6, 6#
Notice that we arrived at a constant sequence after
Having arrived at a constant sequence, we can use the initial terms of each of the sequences as coefficients to write a polynomial matching the sample points:
#s_n = color(blue)(10)/(0!)+color(blue)(36)/(1!)(n-1)+color(blue)(48)/(2!)(n-1)(n-2)+color(blue)(28)/(3!)(n-1)(n-2)(n-3)+color(blue)(6)/(4!)(n-1)(n-2)(n-3)(n-4)#
#color(white)(s_n) = 10+36n-36+24n^2-72n+48+14/3n^3-28n^2+154/3n-28+1/4n^4-5/2n^3 +35/4n^2-25/2n+6#
#color(white)(s_n) = 1/12n(3n^3+26n^2+57n+34)#
#color(white)(s_n) = 1/12n(n+1)(3n^2+23n+34)#
#color(white)(s_n) = 1/12n(n+1)(n+2)(3n+17)#