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The sequence begins with one. Each subsequent number is the sum of the two preceding numbers. The sequence begins with one. Each subsequent number is.

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Presentation on theme: "The sequence begins with one. Each subsequent number is the sum of the two preceding numbers. The sequence begins with one. Each subsequent number is."— Presentation transcript:

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2 The sequence begins with one. Each subsequent number is the sum of the two preceding numbers. The sequence begins with one. Each subsequent number is the sum of the two preceding numbers. Fib(n) = Fib(n-1) + Fib(n-2) Fib(n) = Fib(n-1) + Fib(n-2) Thus the sequence begins as follows: Thus the sequence begins as follows: 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144…. 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144….

3 Fibonacci applied his sequence to a problem involving the breeding of rabbits. Fibonacci applied his sequence to a problem involving the breeding of rabbits. Given certain starting conditions, he mapped out the family tree of a group of rabbits that initially started with only two members. Given certain starting conditions, he mapped out the family tree of a group of rabbits that initially started with only two members. The number of rabbits at any given time was always a Fibonacci number. The number of rabbits at any given time was always a Fibonacci number. Unfortunately, his application had little practical bearing to nature, since incest and immortality was required among the rabbits to complete his problem. Unfortunately, his application had little practical bearing to nature, since incest and immortality was required among the rabbits to complete his problem.

4 The Fibonacci sequence has far more applications than immortal rabbits. The Fibonacci sequence has far more applications than immortal rabbits. Fibonacci numbers have numerous naturally-occurring applications, ranging from the very basic to the complex geometric. Fibonacci numbers have numerous naturally-occurring applications, ranging from the very basic to the complex geometric.

5 Many aspects of nature are grouped in bunches equaling Fibonacci numbers. Many aspects of nature are grouped in bunches equaling Fibonacci numbers. For example, the number of petals on a flower tend to be a Fibonacci number. For example, the number of petals on a flower tend to be a Fibonacci number.

6 3 petals: lilies 3 petals: lilies 5 petals: buttercups, roses 5 petals: buttercups, roses 8 petals: delphinium 8 petals: delphinium 13 petals: marigolds 13 petals: marigolds 21 petals: black-eyed susans 21 petals: black-eyed susans 34 petals: pyrethrum 34 petals: pyrethrum 55/89 petals: daisies 55/89 petals: daisies

7 Leaves are also found in groups of Fibonacci numbers. Leaves are also found in groups of Fibonacci numbers. Branching plants always branch off into groups of Fibonacci numbers. Branching plants always branch off into groups of Fibonacci numbers.

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9 Think about yourself. You should have: Think about yourself. You should have: 5 fingers on each hand 5 fingers on each hand 5 toes on each foot 5 toes on each foot 2 arms 2 arms 2 legs 2 legs 2 eyes 2 eyes 2 ears 2 ears 2 sections per leg 2 sections per leg 2 sections per arm 2 sections per arm I could go on, but I think you get the point. I could go on, but I think you get the point.

10 Fibonacci numbers have geometric applications in nature as well. Fibonacci numbers have geometric applications in nature as well. The most prominent of these is the Fibonacci spiral. The most prominent of these is the Fibonacci spiral.

11 The Fibonacci spiral is constructed by placing together rectangles of relative side lengths equaling Fibonacci numbers. The Fibonacci spiral is constructed by placing together rectangles of relative side lengths equaling Fibonacci numbers.

12 A spiral can then be drawn starting from the corner of the first rectangle of side length 1, all the way to the corner of the rectangle of side length 13. A spiral can then be drawn starting from the corner of the first rectangle of side length 1, all the way to the corner of the rectangle of side length 13.

13 Cauliflower Pine Cone

14 Music involves several applications of Fibonacci numbers. Music involves several applications of Fibonacci numbers. A full octave is composed of 13 total musical tones, 8 of which make up the actual musical octave. A full octave is composed of 13 total musical tones, 8 of which make up the actual musical octave.

15 Fibonacci RatioCalculated Frequency Tempered Frequency Note in ScaleMusical Relationship 1/1440440.00ARoot 2/1880880.00AOctave 2/3293.33293.66DFourth 2/5176174.62FAug Fifth 3/2660659.26EFifth 3/5264261.63CMinor Third 3/8165164.82EFifth 5/21,100.001108.72C#Third 5/3733.33740F#Sixth 5/8275277.18C#Third 8/31173.331174.64DFourth 8/5704698.46FAug. Fifth

16 End Part 1…… Beginning Part 2…..

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18 One of the most significant applications of the Fibonacci sequence is a number that mathematicians refer to as Phi (  ). One of the most significant applications of the Fibonacci sequence is a number that mathematicians refer to as Phi (  ). No, you Physics duals, NOT flux. In this case,  refers to a very important number that is known as the golden ratio. No, you Physics duals, NOT flux. In this case,  refers to a very important number that is known as the golden ratio.

19 Phi is defined as the limit of the ratio of a Fibonacci number i and its predecessor, Fib(i-1). Phi is defined as the limit of the ratio of a Fibonacci number i and its predecessor, Fib(i-1). Mathematically, this number is equal to: Mathematically, this number is equal to: or approximately 1.618034.

20 Phi can be derived by the equation: Phi can be derived by the equation: With some fancy factoring and division, you get: With some fancy factoring and division, you get: This implies that Phi’s reciprocal is smaller by 1. It is.618034, also known as phi (  ). This implies that Phi’s reciprocal is smaller by 1. It is.618034, also known as phi (  ).

21 Is there anything mathematically definitive about  when used in geometry? You bet there is. Is there anything mathematically definitive about  when used in geometry? You bet there is. A rectangle whose sides are in the golden ratio is referred to as a golden rectangle. A rectangle whose sides are in the golden ratio is referred to as a golden rectangle. When a golden rectangle is squared, the remaining area forms another golden rectangle! When a golden rectangle is squared, the remaining area forms another golden rectangle!

22 Without  in order to find any Fibonacci number, you would need to know its two preceding Fibonacci numbers. Without  in order to find any Fibonacci number, you would need to know its two preceding Fibonacci numbers. But with  at your service, you can find any Fibonacci number knowing only its place in the sequence! But with  at your service, you can find any Fibonacci number knowing only its place in the sequence!

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24 Remember how flowers have leaves and petals arranged in sets of Fibonacci numbers? Remember how flowers have leaves and petals arranged in sets of Fibonacci numbers? This ensures that there are  leaves and petals per turn of the stem, which allows for maximum exposure to sunlight, rain, and insects. This ensures that there are  leaves and petals per turn of the stem, which allows for maximum exposure to sunlight, rain, and insects.

25 How about your body? How about your body? You have NO IDEA how many segments of the human body are related in size to each other by  ! You have NO IDEA how many segments of the human body are related in size to each other by  !

26 The human arm: The human arm: The human finger: The human finger:

27 When used in dimensioning objects, it has always been thought that  produces the most visually appealing results. When used in dimensioning objects, it has always been thought that  produces the most visually appealing results. Many marketers have used  in their products over the years to make them more attractive to you. Many marketers have used  in their products over the years to make them more attractive to you. An extremely basic example: 3 x 5 greeting cards. An extremely basic example: 3 x 5 greeting cards.

28 There are numerous other applications of the Fibonacci sequence, Fibonacci numbers, and  that were not covered in this presentation—simply because there are far too many to list. Feel free to research on your own if you found any of this interesting.

29 http://www.mcs.surrey.ac.uk/Personal/R.Kn ott/Fibonacci/ http://www.mcs.surrey.ac.uk/Personal/R.Kn ott/Fibonacci/ http://library.thinkquest.org/27890/goldenR atio2p.html http://library.thinkquest.org/27890/goldenR atio2p.html Thank you for your kind attention!

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