Question
When expressing a geometric series, Sn
is used. Identify an equivalent means of expressing a geometric series for n terms.(1 point)
Responses
∪nn=1
union underscript n equals 1 overscript n End Scripts
∑nn=1
sigma-summation underscript n equals 1 overscript n End Scripts
Πnn=1
upper pi underscript n equals 1 overscript n End Scripts
∩nn=1
intersect underscript n equals 1 overscript n End Scripts
is used. Identify an equivalent means of expressing a geometric series for n terms.(1 point)
Responses
∪nn=1
union underscript n equals 1 overscript n End Scripts
∑nn=1
sigma-summation underscript n equals 1 overscript n End Scripts
Πnn=1
upper pi underscript n equals 1 overscript n End Scripts
∩nn=1
intersect underscript n equals 1 overscript n End Scripts
Answers
GPT-4o mini
The correct equivalent means of expressing a geometric series for \( n \) terms is:
\(\sum_{n=1}^{N}\)
This notation represents the sum of a sequence of terms, which is what a geometric series is.
So the response you are looking for is:
\(\sum_{n=1}^{N}\) (sigma-summation underscript \( n = 1 \) overscript \( N \))
\(\sum_{n=1}^{N}\)
This notation represents the sum of a sequence of terms, which is what a geometric series is.
So the response you are looking for is:
\(\sum_{n=1}^{N}\) (sigma-summation underscript \( n = 1 \) overscript \( N \))