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This series can also be written in summation notation as where the upper limit of summation is infinity. Because the terms are not tending to zero, the sum of the series increases without bound as we add more terms. Therefore, the sum of this infinite series is not defined. When the sum is not a real number, we say the series diverges .
If the terms of an infinite geometric series approach 0, the sum of an infinite geometric series can be defined. The terms in this series approach 0:
The common ratio As gets very large, the values of get very small and approach 0. Each successive term affects the sum less than the preceding term. As each succeeding term gets closer to 0, the sum of the terms approaches a finite value. The terms of any infinite geometric series with approach 0; the sum of a geometric series is defined when
The sum of an infinite series is defined if the series is geometric and
Given the first several terms of an infinite series, determine if the sum of the series exists.
Determine whether the sum of each infinite series is defined.
The ratio of the second term to the first is the same as the ratio of the third term to the second. The series is geometric with a common ratio of The sum of the infinite series is defined.
Determine whether the sum of the infinite series is defined.
When the sum of an infinite geometric series exists, we can calculate the sum. The formula for the sum of an infinite series is related to the formula for the sum of the first terms of a geometric series.
We will examine an infinite series with What happens to as increases?
The value of decreases rapidly. What happens for greater values of
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