Find S100 for the arithmetic sequence 4, 17, 30, .... 1295 64,750 129,900 1,295,000 none of these

Question

asked Mar 18, 2020 222k views

1 Answer

Emtrane · Answer 1 · 2020-03-25T14:32:08+0000

There's a difference of 13 between consecutive terms in the sequence, so that the
-th term of the sequence is

a_n=4+13(n-1)=13n-9

Then the sum of the first 100 terms of the sequence is

$S_(100)=\displaystyle\sum_(n=1)^(100)(13n-9)=13\sum_(n=1)^(100)n-9\sum_(n=1)^(100)1$

$S_(100)=13\frac{100\cdot101}2-9\cdot100$

$\boxed{S_(100)=64,750}$