First what is the Forex market: The FOREX or Foreign Exchange market is the largest financial market in the world, with an volume of more than $1.5 trillion daily, dealing in currencies. Unlike other financial markets, the Forex market has no physical location, no central exchange. It operates through an electronic network of banks, corporations and individuals trading one currency for another.
The Forex, or foreign currency exchange, is all about money. Money from all over the world is bought, sold and traded. On the Forex, anyone can buy and sell currency and with possibly come out ahead in the end. When dealing with the foreign currency exchange, it is possible to buy the currency of one country, sell it and make a profit. For example, a broker might buy a Japanese yen when the yen to dollar ratio increases, then sell the yens and buy back American dollars for a profit.
Strategies for anticipating and capturing significant turns in stocks, stock indices and exchange-traded funds in Forex trading are known as Fibonacci strategies. Classic principles and applications of Fibonacci numbers and a trading system known as the Elliott Wave are used. Basically the idea is to calculate and predict key turning points in the markets, analyze business and economic cycles and identify profitable turning points in interest rate movement. Forex traders also benefit from the system and from Fibonacci.
Fibonacci was the name used by the Italian mathematician Leonardo Pisano from 1170 to 1250. The son of Guilielmo and a member of the Bonacci family, Fibonacci sometimes used the name Bigollo, which may mean good-for-nothing traveller. Fibonacci was a genius ahead of his day. He was a brilliant mathematician who wrote several books. He is most well known today for the sequence 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, etc, which figures prominently in what is today known as Fibonaccian mathematics, and has a quarterly scholarly journal devoted to it. Until that time the Western world had used the Roman numeral system, Fibonacci introduced the West to the modern decimal system, imported from Babylonia. The Fibonacci number sequence is studied as part of number theory and hase applications in the counting of mathematical objects such as sets, permutations and sequences, as well as in computer science.
It was Fibonacci's belief that Arabic numerals were simpler and more efficient than Roman numerals. He traveled throughout the Mediterranean world and studied under the major Arab mathematicians returning to Pisa around 1200. In the year 1202, at the age of 32,Fibonacci published his findings in The Book of Calculation. In it he showed the practical importance of this new number system by applying it to commercial accounting and to conversion of weights and measures. He also showed how to apply it to the calculation of interest, money changing, and many other applications. The book was well received and had a profound impact on European thought. Despite this, the use of decimal numbers did not become widespread until the invention of printing almost three hundred years later. Fibonacci was honored to be a guest of the Holy Roman Emperor Frederick II who was a fan of mathematics and science. In the year 1240 his city, the Republic of Pisa honored him by paying him a salary from the city.
Fibonacci's numbers are used in the run time analysis of Euclid's algorithm determining he greatest common divisor of two integers. It was also used by Yuri Matiyasevich to solve Hilbert's tenth problem. The numbers are also used in a formula about diagonals Pascal's triangle. He said that every positive integer can be written uniquely in a way as the sum of one or more distinct Fibonacci numbers and in that way the sum does not include any two consecutive numbers, which is called Zeckendorf's theorem. A sum of Fibonacci numbers that satisfies these ideas is a Zeckendorf representation
The numbers are also commonly found in nature. They have been found in the patterns of leaves, grass and flowers, and branches in bushes and trees. Fibonacci numbers can also be found in the arrangement of tines on a pine cone, in raspberry seeds and other natural sources. Genes too and enzymes often show Fibonacci patterns.
Fibonacci, known in his day and recognized as a genius, was able to see patterns that escaped others. It is only with the modern age of computers that his numbers and patterns can be utilized anywhere near what he envisioned. Fibonacci's translation of Arabic numerals, replacing the limited and bulky Roman system of numerals, is a debt the entire modern world owes to him. Serious Forex traders also owe a debt to the man from Pisa.