Geometric Sequences & Series (DP IB Maths: AA HL)

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Geometric Sequences

What is a geometric sequence?

  • In a geometric sequence, there is a common ratio, r, between consecutive terms in the sequence
    • For example, 2, 6, 18, 54, 162, … is a sequence with the rule ‘start at two and multiply each number by three’
      • The first term, u1, is 2
      • The common ratio, r, is 3
  • A geometric sequence can be increasing (r > 1) or decreasing (0 < r < 1)
  •  If the common ratio is a negative number the terms will alternate between positive and negative values
    • For example, 1, -4, 16, -64, 256, … is a sequence with the rule ‘start at one and multiply each number by negative four’
        • The first term, u1, is 1
        • The common ratio, r, is -4
  • Each term of a geometric sequence is referred to by the letter u with a subscript determining its place in the sequence

How do I find a term in a geometric sequence?

  • The n to the power of t h end exponent term formula for a geometric sequence is given as

u subscript n equals u subscript 1 r to the power of n minus 1 end exponent

    • Where u subscript 1 is the first term, and r is the common ratio
    • This formula allows you to find any term in the geometric sequence
    • It is given in the formula booklet, you do not need to know how to derive it
  • Enter the information you have into the formula and use your GDC to find the value of the term
  • Sometimes you will be given a term and asked to find the first term or the common ratio
    • Substitute the information into the formula and solve the equation
      • You could use your GDC for this
  • Sometimes you will be given two or more consecutive terms and asked to find both the first term and the common ratio
    • Find the common ratio by dividing a term by the one before it
    • Substitute this and one of the terms into the formula to find the first term
  • Sometimes you may be given a term and the formula for the nth term and asked to find the value of n
    • You can solve these using logarithms on your GDC

 

Examiner Tip

  • You will sometimes need to use logarithms to answer geometric sequences questions 
    • Make sure you are confident doing this
    • Practice using your GDC for different types of questions

Worked example

The sixth term, u subscript 6, of a geometric sequence is 486 and the seventh term, u subscript 7, is 1458. 

Find,

i)
the common ratio, r, of the sequence,

ai-sl-1-2-3-geo-seq-i

 

ii)
the first term of the sequence, u subscript 1.

ai-sl-1-2-3-geo-seq-ii

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Geometric Series

How do I find the sum of a geometric series?

  • A geometric series is the sum of a certain number of terms in a geometric sequence
    • For the geometric sequence 2, 6, 18, 54, … the geometric series is 2 + 6 + 18 + 54 + …
  • The following formulae will let you find the sum of the first n terms of a geometric series:

S subscript n equals fraction numerator u subscript 1 left parenthesis r to the power of n minus 1 right parenthesis over denominator r minus 1 end fraction equals space fraction numerator u subscript 1 left parenthesis 1 minus r to the power of n right parenthesis over denominator 1 minus r end fraction

      • u subscript 1 is the first term
      • r is the common ratio
    • Both formulae are given in the formula booklet, you do not need to know how to derive them
  • You can use whichever formula is more convenient for a given question
    • The first version of the formula is more convenient if r space greater than space 1 and the second is more convenient if r space less than space 1
  • A question will often give you the sum of a certain number of terms and ask you to find the value of the first term, the common ratio, or the number of terms within the sequence
    • Substitute the information into the formula and solve the equation
      • You could use your GDC for this

Examiner Tip

  • The geometric series formulae are in the formulae booklet, you don't need to memorise them
    • Make sure you can locate them quickly in the formula booklet

Worked example

A geometric sequence has u subscript 1 space equals space 25 and r space equals space 0.8.  Find the value of u subscript 5 and S subscript 5.

ai-sl-1-2-3-geo-series

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Sum to Infinity

What is the sum to infinity of a geometric series?

  • A geometric sequence will either increase or decrease away from zero or the terms will get progressively closer to zero
    • Terms will get closer to zero if the common ratio, r, is between 1 and -1
  • If the terms are getting closer to zero then the series is said to converge
    • This means that the sum of the series will approach a limiting value
    • As the number of terms increase, the sum of the terms will get closer to the limiting value

 

How do we calculate the sum to infinity?

  • If asked to find out if a geometric sequence converges find the value of r
    • If vertical line r vertical line space space less than space 1 space  then the sequence converges
    • If vertical line r vertical line space space greater or equal than space 1 space then the sequence does not converge and the sum to infinity cannot be calculated
    • vertical line r vertical line space less than space 1 spacemeans negative 1 space less than space r space less than space 1 space
  • If vertical line r vertical line space less than space 1, then the geometric series converges to a finite value given by the formula

S subscript infinity equals fraction numerator u subscript 1 over denominator 1 minus r end fraction space comma space blank open vertical bar r close vertical bar less than 1

    • u subscript 1 is the first term
    • r is the common ratio
    • This is in the formula book, you do not need to remember it

Examiner Tip

  • Learn and remember the conditions for when a sum to infinity can be calculated

Worked example

The first three terms of a geometric sequence are  6 space comma space space 2 space comma space space 2 over 3.  Explain why the series converges and find the sum to infinity.

1-3-3-aa-sl-sum-to-infinity-we-solution-

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Amber

Author: Amber

Expertise: Maths

Amber gained a first class degree in Mathematics & Meteorology from the University of Reading before training to become a teacher. She is passionate about teaching, having spent 8 years teaching GCSE and A Level Mathematics both in the UK and internationally. Amber loves creating bright and informative resources to help students reach their potential.