How do you find the sum of the geometric series #4096-512+64-...# to 5 terms?
2 Answers
3641
Explanation:
First get the common ratio by dividing and of the terms by its preceding term, like second term being divided by first, or third term being divided by 2nd. the common ratio is
Sum of a geometric series is given by the formula
Here a= 4096,
Accordingly,
=
=
Explanation:
Given:
#4096-512+64-...#
We are told that this is a geometric series, so there should be a common ratio between successive terms.
Note that:
#(-512)/4096 = -1/8#
#64/(-512) = -1/8#
So there is a common ratio of
So the fourth and fifth terms must be:
#64*(-1/8) = -8#
and
#(-8)*(-1/8) = 1#
So the sum to
#4096-512+64-8+1 = 3641#
The general term of a geometric series can be written:
#a_n = ar^(n-1)#
where
Then we find:
#(1-r) sum_(n=1)^N a_n = sum_(n=1)^N ar^(n-1) - r sum_(n=1)^N ar^(n-1)#
#color(white)((1-r) sum_(n=1)^N a_n) = sum_(n=1)^N ar^(n-1) - sum_(n=2)^(N+1) ar^(n-1)#
#color(white)((1-r) sum_(n=1)^N a_n) = a+color(red)(cancel(color(black)(sum_(n=2)^N ar^(n-1)))) - color(red)(cancel(color(black)(sum_(n=2)^N ar^(n-1)))) - ar^N#
#color(white)((1-r) sum_(n=1)^N a_n) = a(1-r^N)#
So dividing both ends by
#sum_(n=1)^N a_n = (a(1-r^N))/(1-r)#
In our example we have
So:
#sum_(n=1)^5 a_n = (4096(1-(-1/8)^5))/(1-(-1/8))#
#color(white)(sum_(n=1)^5 a_n) = (4096(1+1/32768))/(9/8)#
#color(white)(sum_(n=1)^5 a_n) = (4096*32769)/(9*4096)#
#color(white)(sum_(n=1)^5 a_n) = 32769/9#
#color(white)(sum_(n=1)^5 a_n) = 3641#
Bonus
If, in addition (as in our example) we have
#sum_(n=1)^oo a_n = lim_(N->oo) (a(1-r^N))/(1-r) = a/(1-r)#
So in our example, the sum to infinity would be:
#4096/(1-(-1/8)) = 4096/(9/8) = 32768/9 = 3640.bar(8)#
