Furthermore, it is worth mentioning that it was not on this side of the globe that the Fibonacci sequence was written for the first time, it had already appeared in a book on metrics written by the Indian mathematician Pingala, between 450 and 200 BC, demonstrating that the sources of beauty and wisdom go beyond the European cradle. However, it is a fact that the golden ratio was of fundamental importance for the cultural sector and in the construction of an aesthetic sense, especially in the West. In short, it is a debate that will remain constant, after all, scientific data are not enough to translate what is beautiful - this notion being subjective and created according to a person's own references and cultures. But the Fibonacci sequence doesn’t just stop at nature. This famous pattern shows up everywhere in nature including flowers, pinecones, hurricanes, and even huge spiral galaxies in space. According to Keith Devlin, a British mathematician and expert on the subject, all theories that cover aesthetic appeals according to this constant exist only because we humans are good at recognizing patterns and we ignore everything that contradicts them. A perfect example of this is the nautilus shell, whose chambers adhere to the Fibonacci sequence’s logarithmic spiral almost perfectly. Furthermore, many mathematicians and designers already question the fact that the golden ratio is a universal formula for aesthetic beauty. Nowadays, fortunately, the discussion about the standardization and universalization of the human body is much more advanced and does not just surrender to mathematical factors. The higher the numbers chosen, the closer the result is to the golden ratio. After all, when dividing a number from the Fibonacci sequence by its previous one, the result will be closer and closer to 1.618. This constant creates a very close relationship with the golden number (1.61803399), called the golden ratio, which mathematically represents the "perfection of nature". In its content, the fundamental thing is to know that whatever the number in the sequence is, it is the result of the sum of the two previous ones. Leonardo of Pisa, better known as Fibonacci, wrote his series of numbers (1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233.) to solve a hypothetical problem of breeding rabbits in your Calculation Book. But, after all, how does this sequence relate to architecture? The famous sequence of numbers became known as the "secret code of nature" and can be seen in the natural world in several cases. One of the most famous series of numbers in history, the Fibonacci sequence was published by Leonardo of Pisa in 1202 in the " Liber Abaci", the "Book of Calculus".
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