The Fibonacci Sequence
... The Fibonacci sequence has countless fascinating mathematical properties. These properties are what set it apart as an exceptional series. I’m going to discuss just a brief few of them. Every 3rd number of the sequence is even and more generally, every kth number of the sequence is a multiple of Fk. ...
... The Fibonacci sequence has countless fascinating mathematical properties. These properties are what set it apart as an exceptional series. I’m going to discuss just a brief few of them. Every 3rd number of the sequence is even and more generally, every kth number of the sequence is a multiple of Fk. ...
Proof Theory: From Arithmetic to Set Theory
... universalis - and of reducing logical inference to a mechanical reasoning process in a purely formal language - called calculus rationatur - were due to Gottfried Wilhelm Leibniz (1646-1716). • Leibniz’s contributions include arithmetization of syllogistic, a theory of relations, modal logic and log ...
... universalis - and of reducing logical inference to a mechanical reasoning process in a purely formal language - called calculus rationatur - were due to Gottfried Wilhelm Leibniz (1646-1716). • Leibniz’s contributions include arithmetization of syllogistic, a theory of relations, modal logic and log ...
The Great Pyramid of Gizah was built for Pharaon Chufu (known
... Zeus which is considered as one of seven wonders of the world (the Great Pyramid is another one). In honour to Phidias' mastery the American mathematician Mark Barr proposed to use the capital letter Phi, , to denote the ratio at hand, and its reciprocal 1/ by the small letter phi, (note: = ...
... Zeus which is considered as one of seven wonders of the world (the Great Pyramid is another one). In honour to Phidias' mastery the American mathematician Mark Barr proposed to use the capital letter Phi, , to denote the ratio at hand, and its reciprocal 1/ by the small letter phi, (note: = ...
2. Primes Primes. • A natural number greater than 1 is prime if it
... every natural number greater than 1 is either prime or it can be expressed as a product of primes. The prime numbers give us a world of questions to explore. We will prove that there are infinitely many primes, but how are they distributed among the natural numbers? How many primes are there less th ...
... every natural number greater than 1 is either prime or it can be expressed as a product of primes. The prime numbers give us a world of questions to explore. We will prove that there are infinitely many primes, but how are they distributed among the natural numbers? How many primes are there less th ...
Full text
... if among the specific choice i of £ barred pairs of g£ .(n), as written in Lemma 3, ^ barred pairs are numerated by i4-numbers. Proof: A barred pair Y(i + l)Y(i) in ^7£,i(n), given in Lemma 3, corresponds to a missing factor - I 2 in Y(n) •«• 7(1) iff £ and i + 1 are both i-numbers. In all other cas ...
... if among the specific choice i of £ barred pairs of g£ .(n), as written in Lemma 3, ^ barred pairs are numerated by i4-numbers. Proof: A barred pair Y(i + l)Y(i) in ^7£,i(n), given in Lemma 3, corresponds to a missing factor - I 2 in Y(n) •«• 7(1) iff £ and i + 1 are both i-numbers. In all other cas ...
Non-standard analysis
The history of calculus is fraught with philosophical debates about the meaning and logical validity of fluxions or infinitesimal numbers. The standard way to resolve these debates is to define the operations of calculus using epsilon–delta procedures rather than infinitesimals. Non-standard analysis instead reformulates the calculus using a logically rigorous notion of infinitesimal numbers.Non-standard analysis was originated in the early 1960s by the mathematician Abraham Robinson. He wrote:[...] the idea of infinitely small or infinitesimal quantities seems to appeal naturally to our intuition. At any rate, the use of infinitesimals was widespread during the formative stages of the Differential and Integral Calculus. As for the objection [...] that the distance between two distinct real numbers cannot be infinitely small, Gottfried Wilhelm Leibniz argued that the theory of infinitesimals implies the introduction of ideal numbers which might be infinitely small or infinitely large compared with the real numbers but which were to possess the same properties as the latterRobinson argued that this law of continuity of Leibniz's is a precursor of the transfer principle. Robinson continued:However, neither he nor his disciples and successors were able to give a rational development leading up to a system of this sort. As a result, the theory of infinitesimals gradually fell into disrepute and was replaced eventually by the classical theory of limits.Robinson continues:It is shown in this book that Leibniz's ideas can be fully vindicated and that they lead to a novel and fruitful approach to classical Analysis and to many other branches of mathematics. The key to our method is provided by the detailed analysis of the relation between mathematical languages and mathematical structures which lies at the bottom of contemporary model theory.In 1973, intuitionist Arend Heyting praised non-standard analysis as ""a standard model of important mathematical research"".