Geometric sequence: Difference between revisions

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A '''geometric sequence''' is a (finite or infinite) [[sequence]]
A '''geometric sequence''' (or '''geometric progression''') is a (finite or infinite) [[sequence]]
of (real or complex) numbers
of (real or complex) numbers
such that the quotient of consecutive elements is the same for every pair.
such that the quotient (or ratio) of consecutive elements is the same for every pair.


In finance, compound [[interest (finance)|interest]] generates a geometric sequence.
In finance, compound [[interest rate|interest]] generates a geometric sequence.


== Examples ==
== Examples ==
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* <math> 8, 4, 2, 1, {1\over2}, {1\over4}, {1\over8},
* <math> 8, 4, 2, 1, {1\over2}, {1\over4}, {1\over8},
                     \dots {1\over2^{n-4}}, \dots  </math> (infinite, quotient <math>1\over2</math>)
                     \dots {1\over2^{n-4}}, \dots  </math> (infinite, quotient <math>1\over2</math>)
* <math> 2, 2, 2, 2, \dots </math> (infinite, quotient 1)
* <math> -2, 2, -2, 2, \dots , (-1)^n\cdot 2 , \dots </math>  (infinite, quotient &minus;1)
* <math> {1\over2}, 1, 2, 4, \dots , 2^{n-2}, \dots </math>  (infinite, quotient 2)
* <math> 1, 0, 0, 0, \dots \ </math> (infinite, quotient 0) (See [[#General form|General form]] below)


== Application in finance ==
== Application in finance ==
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is called geometric sequence if
is called geometric sequence if
: <math> { a_{i+1} \over a_i } = q </math>
: <math> { a_{i+1} \over a_i } = q </math>
for all indices ''i''. (The indices need not start at 0 or 1.)
for all indices ''i'' where ''q'' is a number independent of ''i''. (The indices need not start at 0 or 1.)


=== General form ===
=== General form ===
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Thus, the elements of a geometric sequence can be written as
Thus, the elements of a geometric sequence can be written as
: <math> a_i = a_1 q^{i-1} </math>
: <math> a_i = a_1 q^{i-1} </math>
'''Remark:''' This form includes two cases not covered by the initial definition depending on the quotient:
* ''a''<sub>1</sub> = 0 , ''q'' arbitrary: 0, 0•''q'' = 0, 0, 0, ...
* '' q = 0 '': ''a''<sub>1</sub>, 0•''a''<sub>1</sub> = 0, 0, 0, ...
(The initial definition does not cover these two cases because there is no division by 0.)


=== Sum ===
=== Sum ===
The sum (of the elements) of a finite geometric sequence is
The sum (of the elements) of a finite geometric sequence is
: <math> a_1 + a_2 +\cdots+ a_n = \sum_{i=1}^n a_i
: <math> a_1 + a_2 +\cdots+ a_n = \sum_{i=1}^n a_i </math>
      = a_1 ( 1+q+q^2+ \cdots +q^{n-1} )
: <math> = a_1 ( 1+q+q^2+ \cdots +q^{n-1} )
       = a_1 { 1-q^n  \over 1-q }
       = \begin{cases}  a_1 { 1-q^n  \over 1-q } & q \ne 1 \\
                        a_1 \cdot n              & q = 1
        \end{cases}
</math>
</math>


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: <math>  \sum_{i=0}^\infty a_0 q^i = a_0 { 1 \over 1-q }
: <math>  \sum_{i=0}^\infty a_0 q^i = a_0 { 1 \over 1-q }
           \qquad (\textrm {for}\ |q|<1)
           \qquad (\textrm {for}\ |q|<1)
   </math>
   </math>[[Category:Suggestion Bot Tag]]

Latest revision as of 06:00, 21 August 2024

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A geometric sequence (or geometric progression) is a (finite or infinite) sequence of (real or complex) numbers such that the quotient (or ratio) of consecutive elements is the same for every pair.

In finance, compound interest generates a geometric sequence.

Examples

Examples for geometric sequences are

  • (finite, length 6: 6 elements, quotient 2)
  • (finite, length 4: 4 elements, quotient −2)
  • (infinite, quotient )
  • (infinite, quotient 1)
  • (infinite, quotient −1)
  • (infinite, quotient 2)
  • (infinite, quotient 0) (See General form below)

Application in finance

The computation of compound interest leads to a geometric series:

When an initial amount A is deposited at an interest rate of p percent per time period then the value An of the deposit after n time-periods is given by

i.e., the values A=A0, A1, A2, A3, ... form a geometric sequence with quotient q = 1+(p/100).

Mathematical notation

A finite sequence

or an infinite sequence

is called geometric sequence if

for all indices i where q is a number independent of i. (The indices need not start at 0 or 1.)

General form

Thus, the elements of a geometric sequence can be written as

Remark: This form includes two cases not covered by the initial definition depending on the quotient:

  • a1 = 0 , q arbitrary: 0, 0•q = 0, 0, 0, ...
  • q = 0 : a1, 0•a1 = 0, 0, 0, ...

(The initial definition does not cover these two cases because there is no division by 0.)

Sum

The sum (of the elements) of a finite geometric sequence is

The sum of an infinite geometric sequence is a geometric series: