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Recurrence
Relations – A
new topic in
Further Pure
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An Example
• Take a sheet of paper
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An Example
• Draw a straight line across it (anywhere you like)
dividing it onto two regions
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An Example
• Repeat the process and you will have 4 regions
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An Example
• Keep repeating this process, each time trying to
maximise the number of regions and record your
answers.
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An Example• Question: If you know the number of regions
created by 𝑛 − 1 lines, how many regions will be
created by 𝑛 lines?
• Answer: As line 𝑛 crosses each of the existing
𝑛 − 1 lines it creates 𝑛 new regions, so: -
𝑎𝑛 = 𝑎𝑛−1 + 𝑛
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An Example• We can use this recurrence relation to work out
a general formula for 𝑎𝑛 by repeatedly applying
it, so: -𝑎𝑛 = 𝑎𝑛−1 + 𝑛
= 𝑎𝑛−2 + 𝑛 − 1 + 𝑛
⋮ ⋮= 𝑎1 + 2 + 3 +⋯+ 𝑛 − 1 + 𝑛
= 2 + 2 + 3 +⋯+ 𝑛 − 1 + 𝑛
= 1 + 1 + 2 + 3 +⋯+ 𝑛 − 1 + 𝑛
= 1 +1
2𝑛 𝑛 + 1
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Recurrence Relations in A level• In Mathematics:
– Numerical Methods (fixed point iteration and Newton-
Raphson).
• In Further Mathematics content differs by board
but the main themes are:
– Solving first and second order linear recurrence
relations with constant coefficients;
– Using induction to prove results about sequences and
series;
– Being able to apply knowledge of recurrence relations
to modelling.
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Numerical
Methods
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Fixed point iteration• Consider
1
4𝑥2 + 𝑥 − 2 = 0.
• To carry out a fixed point iteration we need to
first rearrange our equation into the form
𝑥 = 2 −1
4𝑥2.
• To see this is an equivalent problem consider
the following.
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Fixed point iteration𝒚 = 𝒙
𝒚 = 𝟐 −𝟏
𝟒𝒙𝟐
𝒚 =𝟏
𝟒𝒙𝟐 + 𝒙 − 𝟐
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Fixed point iteration• So, to carry out a fixed point iteration re-arrange
your equation into the form 𝑥 = 𝑔(𝑥).
• Starting with an initial value 𝑥0 generate
subsequent values of 𝑥 by using the recurrence
relation 𝑥𝑟+1 = 𝑔(𝑥𝑟).
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Fixed point iteration
𝑥𝑟+1 = 2 −1
4𝑥𝑟
2
𝒓 𝒙𝒓
0 1
1 1.75
2 1.62
3 1.55
… …
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Fixed point iteration𝑦 = 𝑥
𝑦 = 2 −1
4𝑥2
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Fixed point iteration• Now consider 𝑥3 − 2𝑥 − 1 = 0.
• First rearrange out equation into the form
𝑥 =𝑥3−1
2.
• This is equivalent to the original problem (as
before).
• We can explore what is happening in GeoGebra.
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Fixed point iteration• However observe this time that if we pick an
initial point close to the largest root our iteration
is taking us away from the root rather than
towards it, so is diverging in one case and
converging to another root in the other.
• So under what conditions can we use fixed point
iteration?
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Fixed point iteration• If 𝑎 is a fixed point of a function 𝑔 and the
gradient of 𝑔 at 𝑎 is between −1 and 1 and 𝑥0 is
sufficiently close to 𝑎 then the sequence
generated by 𝑥𝑟+1 = 𝑔 𝑥𝑟 will converge to 𝑎.
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The Newton-Raphson Method• Consider again 𝑥3 − 2𝑥 − 1 = 0.
• This method requires we pick an initial point and
that we are able to calculate the derivative of our
function.
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The Newton-Raphson Method• Given an initial point 𝑥0
then next estimate 𝑥1given by the point where
the tangent to 𝑓 𝑥0crosses the x-axis.
• This process can then
repeated as required.
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The Newton-Raphson Method𝑓(𝑥0)
Gradient
f′(𝑥0)
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The Newton-Raphson Method• So, if the tangent to 𝑓(𝑥) at 𝑥0 is 𝑦 = 𝑚𝑥 + 𝑐
then: -
m = 𝑓′ 𝑥0
• The equations of the line tangent to 𝑓(𝑥) at 𝑥0can therefore be written as: -
𝑦 − 𝑓 𝑥0 = 𝑓′(𝑥0)(𝑥 − 𝑥0).
• So at 0, c we have 𝑐 = 𝑓 𝑥0 − 𝑓′(𝑥0)𝑥0.
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The Newton-Raphson Method• Recall m = 𝑓′ 𝑥0 , and 𝑐 = 𝑓 𝑥0 − 𝑓′(𝑥0)𝑥0
• Therefore the equation of the tangent to 𝑓(𝑥) at
𝑥0 is: -
𝑦 = 𝑓′ 𝑥0 𝑥 + 𝑓 𝑥0 − 𝑓′ 𝑥0 𝑥0
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The Newton-Raphson Method• Setting 𝑥 = 𝑥1 and 𝑦 = 0 in
𝑦 = 𝑓′ 𝑥0 𝑥 + 𝑓 𝑥0 − 𝑓′ 𝑥0 𝑥0
and rearranging we get
𝑥1 = 𝑥0 −𝑓 𝑥0𝑓′ 𝑥0
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The Newton-Raphson Method• In general
𝑥𝑟+1 = 𝑥𝑟 −𝑓 𝑥𝑟𝑓′ 𝑥𝑟
, f′(𝑥𝑟) ≠ 0
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Modelling using
recurrence
relations
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Growth in a Bacteria Colony• A bacterial colony begins at hour zero with 20
individuals and then trebles in size every hour.
• Write down a recurrence relation for 𝑎𝑛, the
population at the beginning of hour 𝑛, and solve
it.
• How many hours elapse until the population
exceeds ten million?
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Growth in a Bacteria Colony𝑎𝑛 = 3𝑎𝑛−1, where 𝑛 ≥ 0
• We know that 𝑎0 = 20, so: -
𝑎𝑛 = 3𝑎𝑛−1 = 32𝑎𝑛−2 = ⋯ = 3𝑛𝑎0 = 20 × 3𝑛
• So, 𝑎𝑛 = 20 × 3𝑛, ∀𝑛 ≥ 0.
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Growth in a Bacteria Colony• How many hours until the population exceeds
ten million?
20 × 3𝑛 ≥ 10,000,000 ⇔ 3𝑛 ≥10,000,000
20• So: -
3𝑛 ≥ 500,000 ⇔ 𝑛 ≥ln 500000
ln 3≈ 11.94
• Therefore we first reach 10 million bacteria at
hour 12.
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The Logistic Map• The logistic map, 𝑥𝑛+1 = 𝑟𝑥𝑛 1 − 𝑥𝑛 is a non-
linear recurrence relation made famous by
biologist Robert May in 1976 when modelling
animal populations.
• 𝑥𝑛 =existing population
maximum possible population
• As 𝑟 varies 0 ≤ 𝑟 ≤ 4 the model is intended to
represent reproduction / starvation.
• GeoGebra can be used to investigate changes
in 𝑟.
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Second order
recurrence
relations – the
Fibonacci
numbers
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Fibonacci’s Rabbits• First investigated by Fibonacci, c1200.
• Assume you start at time 0 with no rabbits and at
time 1 get a pair of rabbits (1 male, 1 female).
• When a pair become 2 months old they give
birth to another pair (1 male, 1 female).
• Given the (unrealistic!) assumption that rabbits
never die, how many pairs of rabbits do we have
after 𝑛 months?
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Fibonacci’s Rabbits• Let 𝑓𝑛 be the number of rabbits in month 𝑛.
• By definition, 𝑓0 = 0 and 𝑓1 = 1. In subsequent
months the number of pairs of rabbits will be
given by the number from the previous month,
𝑓𝑛−1, plus the number of new rabbits, which is
the same the number of rabbits at breeding age,
i.e. 𝑓𝑛−2.
• So: -
𝑓𝑛 = 𝑓𝑛−1 + 𝑓𝑛−2
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A Fibonacci FactTo see another way the Fibonacci numbers are
related to the Golden Ratio let: -
lim𝑛→∞
𝑓𝑛+1𝑓𝑛
= 𝐿
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A Fibonacci FactNow, as 𝑓𝑛 = 𝑓𝑛−1 + 𝑓𝑛−2 we have: -
𝐿 = lim𝑛→∞
𝑓𝑛+1𝑓𝑛
= lim𝑛→∞
𝑓𝑛 + 𝑓𝑛−1𝑓𝑛
= 1 + lim𝑛→∞
𝑓𝑛−1𝑓𝑛
= 1 +1
𝐿
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A Fibonacci FactWh have just shown that 𝐿 = 1 +
1
𝐿.
So, 𝐿2 − 𝐿 − 1 = 0 and solving this quadratic gives:
𝐿 =1 ± 5
2.
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Fibonacci Formula• The Fibonacci numbers have a general formula:
𝑓𝑛 =𝜙𝑛 −Φ𝑛
5
where
𝜙 =1+ 5
2and Φ =
1− 5
2
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Fibonacci Formula• We will now prove this using induction
• First, we need to check the two base cases,
𝑛 = 0 and 𝑛 = 1
𝑓0 =𝜙0 −Φ0
5=1 − 1
5= 0
𝑓1 =𝜙1 −Φ1
5=
1 + 52
−1 − 5
2
5=
5
5= 1
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Fibonacci Formula• Now, as 𝜙 and Φ are roots of 𝑥2 − 𝑥 − 1 = 0 we
know that 𝜙2 = 𝜙 + 1 and Φ2 = Φ+ 1.
• So if we assume the formula holds for previous
values of 𝑛 we only need to verify the result
holds for 𝑓𝑛 to complete the proof.
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Fibonacci Formula𝑓𝑛 = 𝑓𝑛−1 + 𝑓𝑛−2
=𝜙𝑛−1 −Φ𝑛−1
5+𝜙𝑛−2 −Φ𝑛−2
5
=𝜙𝑛−1 + 𝜙𝑛−2 −Φ𝑛−1 −Φ𝑛−2
5
=𝜙𝑛−2 𝜙 + 1 −Φ𝑛−1 Φ+ 1
5
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Fibonacci Formula
𝑓𝑛 =𝜙𝑛−2 𝜙 + 1 −Φ𝑛−1 Φ+ 1
5
=𝜙𝑛−2𝜙2 −Φ𝑛−1Φ2
5
=𝜙𝑛 −Φ𝑛
5
As required.
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Fibonacci FormulaAnother way to see this is by looking at the
auxiliary equation of the recurrence relation (this is
also know as the characteristic polynomial).
For those familiar with second order differential
equations, the process here is very similar.
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The Auxiliary EquationIn general for an order 𝑑 difference equation:
𝑎𝑛 = 𝑐1𝑎𝑛−1 + 𝑐2𝑎𝑛−2 +⋯+ 𝑐𝑑𝑎𝑛−𝑑
The auxiliary equation is:
𝑝 = 𝑥𝑑 − 𝑐1𝑥𝑑−1 − 𝑐2𝑥
𝑑−2 −⋯− 𝑐𝑑
If the roots, 𝑟1, 𝑟2, … , 𝑟𝑛 are distinct the general
solution has the form:
𝑎𝑛 = 𝑘1𝑟1𝑛 + 𝑘2𝑟2
𝑛 +⋯+ 𝑘𝑑𝑟𝑑𝑛
Where 𝑘𝑖 are determined by the initial conditions.
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Fibonacci FormulaSo, as 𝑓𝑛 = 𝑓𝑛−1 + 𝑓𝑛−2 the auxiliary equation is
𝑝 = 𝑥2 − 𝑥 − 1 whose roots are 𝜙 and Φ.
Therefore the general solution has the form:
𝑎𝑛 = 𝑘1𝜙𝑛 + 𝑘2Φ
𝑛
To find 𝑘1 and 𝑘2 we need to substitute in 𝑛 = 0and 𝑛 = 1.
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Fibonacci FormulaFrom 𝑎𝑛 = 𝑘1𝜙
𝑛 + 𝑘2Φ𝑛 we get:
𝑎0 = 0 = 𝑘1 + 𝑘2
Which give 𝑘2 = −𝑘1.
Also:
𝑎1 = 1 = 𝑘1𝜙 + 𝑘2Φ
Which gives 1 = 𝑘1𝜙 − 𝑘1Φ.
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Fibonacci FormulaNow, 1 = 𝑘1𝜙 − 𝑘1Φ, so:
1 = 𝑘1 𝜙 −Φ
=𝑘1
21 + 5 − 1 + 5
=𝑘1
22 5
= 5𝑘1
So 𝑘1 =1
5and 𝑘2 = −
1
5as required.
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Repeated RootsEarlier we said that if the roots, 𝑟1, 𝑟2, … , 𝑟𝑛 are
distinct the general solution has the form:
𝑎𝑛 = 𝑘1𝑟1𝑛 + 𝑘2𝑟2
𝑛 +⋯+ 𝑘𝑑𝑟𝑑𝑛
If we have a polynomial with repeated roots, for
example one which factorises as 𝑥 − 𝑟 2 then:
𝑎𝑛 = 𝑘1𝑟1𝑛 + 𝑘2𝑛𝑟2
𝑛
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Another first
order example:
The Towers of
Hanoi
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Towers of Hanoi
• The Towers of Hanoi is a famous game invented
by French mathematician, Édouard Lucas in
1883.
• The game involves moving discs of decreasing
size from the left most of three pillars to the right
most, subject to the rules that we can only move
one disc at a time and you cannot place a
smaller disc on a larger one.
• You can play the game in GeoGebra here.
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Towers of Hanoi
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Towers of Hanoi• We can use the fact that 𝑎𝑛 = 2𝑎𝑛−1 + 1 to
obtain a general formula:𝑎𝑛 = 2𝑎𝑛−1 + 1
= 2 2𝑎𝑛−2 + 1 + 1
= 2 2 2𝑎𝑛−3 + 1 + 1 + 1
= 2𝑛−1𝑎1 +𝑖=0
𝑛−2
2𝑖
= 𝑖=0
𝑛−1
2𝑖 = 2𝑛 − 1
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Towers of Hanoi• Alternatively, if we assume 𝑎𝑛−1 = 2𝑛−1 − 1 we
can verify the general formula for the recurrence
relation by induction: -
𝑎𝑛 = 2𝑎𝑛−1 + 1
= 2 2𝑛−1 − 1 + 1
= 2𝑛 − 2 + 1= 2𝑛 − 1
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