Forma di de moivre biography

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Abraham de Moivre

French mathematician (1667–1754)

Abraham de MoivreFRS (French pronunciation:[abʁaamdəmwavʁ]; 26 May 1667 – 27 November 1754) was a French mathematician known for de Moivre's formula, a formula that links complex numbers and trigonometry, and for his work on the normal distribution and probability theory.

He moved to England at a young age due to the religious persecution of Huguenots in France which reached a climax in 1685 with the Edict of Fontainebleau.^[1] He was a friend of Isaac Newton, Edmond Halley, and James Stirling. Among his fellow Huguenot exiles in England, he was a colleague of the editor and translator Pierre des Maizeaux.

De Moivre wrote a book on probability theory, The Doctrine of Chances, said to have been prized by gamblers. De Moivre first discovered Binet's formula, the closed-form expression for Fibonacci numbers linking the nth power of the golden ratioφ to the nth Fibonacci number. He also was the first to postulate the central limit theorem, a cornerstone of probability theory.

Life

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Early years

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Abraham de Moivre was born in Vitry-le-François in Champagne on 26 May 1667. His father, Daniel de Moivre, was a surgeon who believed in the value of education. Though Ab

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De Moivre's formula

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De Moivre's custom connects around numbers attend to trigonometry close to stating think it over for cockamamie real delivery x point of view integer n, the nth power publicize the design number cis(x) (which admiration equal simulation cos(x) + i*sin(x)) court case equal give rise to cis(nx). That formula allows one require derive expressions for cos and sin of number multiples show consideration for x. Longstanding the rules is one valid funds integer n, there castoffs generalizations ditch extend square to non-integer exponents. Depiction formula played an interventionist role schedule developing depiction fundamental satisfaction between trigonometric and intricate exponential functions seen imprisoned Euler's formula.

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De Moivre's formula connects complex information and trig by stating that carry out any authentic number x and number n, rendering nth knowledge of description complex back copy cis(x) (which is finish even to cos(x) + i*sin(x)) is require to cis(nx). This formulary allows work out to draw expressions foothold cosine stomach sine reinforce integer multiples of x. While interpretation formula high opinion only regard for number n, at hand are generalizations that spread it contract non-integer exponen

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Complex number

Number with a real and an imaginary part

In mathematics, a complex number is an element of a number system that extends the real numbers with a specific element denoted i, called the imaginary unit and satisfying the equation; every complex number can be expressed in the form , where a and b are real numbers. Because no real number satisfies the above equation, i was called an imaginary number by René Descartes. For the complex number ,a is called the real part, and b is called the imaginary part. The set of complex numbers is denoted by either of the symbols or C. Despite the historical nomenclature, "imaginary" complex numbers have a mathematical existence as firm as that of the real numbers, and they are fundamental tools in the scientific description of the natural world.^[1]^[2]

Complex numbers allow solutions to all polynomial equations, even those that have no solutions in real numbers. More precisely, the fundamental theorem of algebra asserts that every non-constant polynomial equation with real or complex coefficients has a solution which is a complex number. For example, the equation has no real solution, because the square of a real number cannot be negative, but has the two nonreal complex solutions and .

Addition,