Difference between revisions of "Geometric sequence"
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==Definition== | ==Definition== | ||
− | A geometric sequence is a sequence of numbers where the nth term of the sequence is a multiple of the previous term. For example: 1, 2, 4, 8, 16, 32, ... is a geometric sequence because each term is twice the previous term. In this case, 2 is called the common ratio of the sequence. | + | A geometric sequence is a sequence of numbers where the nth term of the sequence is a multiple of the previous term. For example: 1, 2, 4, 8, 16, 32, ... is a geometric sequence because each term is twice the previous term. In this case, 2 is called the common ratio of the sequence. More formally, a geometric sequence may be defined as: |
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+ | <math>a_n = r*a_{n-1}, n \geq 2</math> | ||
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+ | with a fixed <math>a_1</math> and common ratio <math>r</math>. Using this definition, the <math>n</math>th term may be found explicityly with: | ||
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+ | <math>\displaystyle a_n = a_1*r^{n-1}</math> | ||
==Summing a Geometric Sequence== | ==Summing a Geometric Sequence== |
Revision as of 02:54, 23 June 2006
Contents
[hide]Definition
A geometric sequence is a sequence of numbers where the nth term of the sequence is a multiple of the previous term. For example: 1, 2, 4, 8, 16, 32, ... is a geometric sequence because each term is twice the previous term. In this case, 2 is called the common ratio of the sequence. More formally, a geometric sequence may be defined as:
with a fixed and common ratio . Using this definition, the th term may be found explicityly with:
Summing a Geometric Sequence
The sum of the first terms of a geometric sequence is given by
where is the first term in the sequence, and is the common ratio.
Infinate Geometric Sequences
An infinate geometric sequence is a geometric sequence with an infinate number of terms. These sequences can have sums, sometimes called limits, if .
For instance, the series , sums to 2. The general fromula for the sum of such a sequence is:
Again, is the first term in the sequence, and is the common ratio.