A geometric series represents the partial sums of a geometric sequence. The nth term in a geometric series with first term a and common ratio r is:T(n) = a(1 - r^n)/(1 - r)
There can be no solution to geometric sequences and series: only to specific questions about them.
It depends on the series.
It is 58465.
An example of an infinite geometric sequence is 3, 5, 7, 9, ..., the three dots represent that the number goes on forever.
The sum of the series a + ar + ar2 + ... is a/(1 - r) for |r| < 1
There can be no solution to geometric sequences and series: only to specific questions about them.
a sequential series of geometric shapes
It depends on the series.
a sequential series of geometric shapes
The geometric series is, itself, a sum of a geometric progression. The sum of an infinite geometric sequence exists if the common ratio has an absolute value which is less than 1, and not if it is 1 or greater.
A point.
A point.
points
It is 58465.
It was Leonardo da Vinci who used geometric shapes to represent nature and human forms. Leonardo was an Italian polymath.
A single number cannot define a series.
antonette taño invented geometric sequence since 1990's