HEY STEEMIANS!
Source: https://pixabay.com/en/fibonacci-golden-leonardo-modernist-3126492/
Nerd, Science person or not, I'm pretty sure you must have heard of some geek person telling how Fibonacci Numbers are their favorite. But you don't get whats so fun about that. I think it's all because of our current education system, where Mathematics is taught as this boring subject. If you were to ask me, Mathematics should inspire and motivate, and it has, but not quite enough people. So, bear with me as i try my best to make it a fun and a good read as possible.
Sequence: A sequence is anything that follows a certain pattern. Suppose, your hand is say 10 inches, and grows at a rate of 2 inches per day ;). So, if you were to list out the measurement of each day, would look something like this.
10, 12, 14, 16, 18, 20...... and so on
where 10 is your initial length and the subsequent numbers are the length of each passing day. When these numbers are taken collectively, it is called a Sequence, and the individual numbers are known as elements.
Mathematics is fun when it can be related to an event. Suppose, if i just wrote the numbers above without telling you that it's the length of your hand, it could have meant anything as well as nothing. Anything for a wandering mind, could be a set of natural numbers, integers, even numbers. Nothing in a sense that they don't mean anything, don't convey anything and only are numbers. And I think people loose interest when they are taught in this way and are only hard wired to solve problems.
Figure: Leonardo of Pisa
Source: 
Only the most famous sequence ever! Named after an Italian Mathematician, Leonardo of Pisa, better known as Fibonacci. He is credited for introducing the series to the Western Mathematics even though the sequence had already been described earlier in Indian Mathematics.
A series of integers, where the next term on the sequence is the sum of the preceding two.
1,1 ( I was taught 0, 1 but it's the same). i.e 1+1 = 2 2+1 =3. Fifth: 3+2 =5 and so onNow, listing the sequence we get:
1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, 377, 610, 987.. to infinity and beyond.
So, these bloody numbers have got nerds pumpin'? What's so special about these numbers. Find out in the next episode of DragonBallZ. Haha. Before that let's look at how our guy Fibonacci came up with these strange numbers.
So, apparently rabbits are what made him to discover this sequence. How? He just, you know watched Rabbit Reproduce.
MONTH 0 : A pair of baby rabbits : 1
MONTH 1: Full Grown Rabbits, the deed is done. Pregnant Rabbit, for the rest of its life. Number of pairs of Rabbits: 1
MONTH 2: New pair of rabbits are born and with the initial pair number of pairs: 2
MONTH 3: The initial pair give birth again to a new pair, and the baby rabbits born the previous month do the deed:3
MONTH 4: The initial pair again give birth to a new baby pair. Also the rabbit pair born in month 2 give birth to a new baby pair: 5
MONTH 5: 8 (Did we count the number of pairs of rabbits? Oh! Hell NO, We know Fibonnaci Sequence) and so on.
Source: 
Before we start Judging our Guy Fibonacci For his Sick Fetishes, he did it for SCIENCE. And for Science to Prosper, Sacrifices have to be made.
Now we know what is a Fibonacci Sequence and how it came about. But still, the answer to what's all this fuss about has not been answered.
All because we observe these numbers in nature quite often. Let us see some examples.
Figure: Number of Seed Pockets in an Apple.
Source: https://pixabay.com/en/apple-bio-apple-cut-cut-in-half-1248816/
Figure: Number of Petals in a ButterCup Flower
Source: https://pixabay.com/en/buttercup-yellow-pointed-flower-2324328/
Exceptions are always going to be there. Nothing/Nobody is Perfect.
A lot more examples but first, we need to learn some extra stuff to understand them.
1. The Fibonacci Rectangle:
As the name suggests, it is basically a rectangle of what? The Fibonacci Numbers!
We've the sequence: 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, 377, 610, 987..
First term is 1, so we draw a square of 1x1 dimension.
Second term is also 1, so again draw a square of 1x1 dimension attach it to the first square. Now we have a 2x1 rectangle.
Thid term is 2, so we draw a 2x2 square and attach it to the first two squares (to the 2x1 rectangle). Now we have a 3x2 rectangle.
Fourth term is 3, so we draw a sqaure of 3x3 and attach it to the 3x2 rectangle.
Go on doing this till you reach the end point ;) (Infinity and beyond, not going to get there if you're thinking of trying.)
Starting with the small square and gradually moving in the ascending order to the bigger square, draw a quarter(1/4) arc from one corner of the square to the other, with the radius equal to the side of the square. Continue doing this till you reach the end point again ;). What do you get. A Nice and Tidy looking spiral, which is known as the Fibonacci Spiral.
It's going to look something like this:
Figure: Fibonacci Rectangle with the Fibonacci Spiral
Source: 
Why did we do this? What is the significance? This is also observed in nature. Where? Let me present you with some more examples.
Figure: Shell following the Fibonacci Spiral
Source: https://pixabay.com/en/fibonacci-geometry-mathematics-1079783/
2. The Golden Ratio:
Probably, the most famous ratio ever ;).
Before I define the golden ratio, let's again go back to the Fibonacci Sequence.
Take any two consecutive numbers of the series, and divide the higher term by the lower. And if the ratios are written down in order, this is what we get.
1(1/1) , 2(2/1) , 1.5(3/2), 1.6667(5/3), 1.6(8/5), 1.625, 1.6153, 1.6190, 1.6176, 1.6181, 1.6179, 1.6180, 1.6180, 1.6180, 1.6180, 1.6180, 1.6180(you get the gist) and so on..
This constant value of 1.6180 is what is known as the Golden Ratio. After the 12th ratio, no matter what consecutive numbers of the sequence we take, the ratio we are going to get is always going to be 1.6180.
Plotting a graph of the ratio, Look at the trend!
Figure: Ratio vs the nth ratio term (Made in Excel)
This ratio also can be observed in the Fibonacci Rectangle above( why not, since they are made up of the Fibonacci Numbers).
Now, Some examples where this golden ratio are:
So, Fibonacci are somewhat Nature's numbering system. Your observed/made something following the nature or the Nature following something you made/observed. A matter of perception and debatable but A Beautiful Feeling Indeed. If this doesn't get you going then I don't know what will.
Tried to make it as enjoyable as I could. I certainly enjoyed and had fun and also was learning something
If you enjoyed the sequence above, you're in for a ride. The properties of these are even way Cooler, or as my friend @eyedeology in his own swaggy way'd say, NOICE.
1. Let' Sqaure these Numbers individually
1, 1, 4, 9, 25, 64, 169, 441, 1156,....
1+1 = 2 (A Fibonacci Number)
1+4 = 5 (Also a Fibonacci Number)
4+9= 13 (Also a Fibonacci Number)
9+25 = 34 (Also a Fibonacci Number), You get the general Idea.
1+1 =2: 1x2 (Combination of Fibonacci Numbers)
1+1+4 =6: 2x3 ( I think I should Stop giving about these info on brackets)
1+1+4+9= 15: 3x5( See, the order in which they come about)
1+1+4+9+25= 40: 5x8
So, what's going to be next, Look at the sequence. So, What's next: 8x13, 13x21....
Aren't they Fascinating or what!
2. This is about how to write a code in any programming language (A psuedo code)
Is one of the simplest code to write.
A=1 (initialise)
B=1(initialise)
print( A and B)
Run a loop (with a condition for termination, otherwise going to be a never-ending loop)
C=A+B (Next term of the series)
print C
A=B (Updating the value of A with B, programming languages work in a way that, the statement are executed from right to left, that means the value of B gets assigned to A and not the other way around)
B=C( same reason above)
References:
1. https://www.mathsisfun.com/numbers/fibonacci-sequence.html [Fibonacci Sequence]
2. https://www.livescience.com/37470-fibonacci-sequence.html [Fibonacci Sequence and History]
3. http://gofiguremath.org/natures-favorite-math/fibonacci-numbers/fibonacci-in-nature/ [Fibonacci in Nature]
4. http://hudsonvalleygeologist.blogspot.com/2010/09/fibonacci-rectangles-and-spirals.html [Fibonacci Rectangle]
5. http://mathforum.org/dr.math/faq/faq.golden.ratio.html [Golden Ratio]
6. https://io9.gizmodo.com/5985588/15-uncanny-examples-of-the-golden-ratio-in-nature [Examples of golden ratio in Nature]
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