Khwarizmi Father of Algebra Inventor of Algorithm


Book Description

Al-Khwarizmi developed the Arabic numerals, based on the Hindu-Arabic numeral system and Indian mathematics. The Western world adopted his numeral system. The term "algorithm" is the invention of Khwarizmi. Algorithm defines the steps for calculation for the solution of a problem. Khwarizmi moved the world from the Greek geometry and created the new mathematics based on Algebra. His Algorithm is used to solve the second order equation. His invention of Algebra and Algorithm paved the way for the age of Enlightenment. Khwarizmi was a philosopher and mathematician. His Persian quest for knowledge, love of truth, and mathematics led him to leave his mark on the humanity.




Khwarizmi the Father of Algebra


Book Description

Khwarizmi developed the numerals based on the Hindu numeral system and Indian mathematics. The Western world adopted his numeral system. The term "algorithm" is the Latinization of his name and the invention of the algorithm methodology. The algorithm defines the steps for calculation of the solution of a problem. Khwarizmi moved the mathematics from the Greek world of geometry and created the new mathematics based on Algebra. His algorithm is used to solve the second-order equation. His invention of Algebra and the algorithm methodology paved the way for the age of Enlightenment. Khwarizmi was a philosopher, astronomer, and mathematician. His quest for knowledge, love of mathematics led him to leave his mark on humanity.













The Development of Arabic Mathematics: Between Arithmetic and Algebra


Book Description

An understanding of developments in Arabic mathematics between the IXth and XVth century is vital to a full appreciation of the history of classical mathematics. This book draws together more than ten studies to highlight one of the major developments in Arabic mathematical thinking, provoked by the double fecondation between arithmetic and the algebra of al-Khwarizmi, which led to the foundation of diverse chapters of mathematics: polynomial algebra, combinatorial analysis, algebraic geometry, algebraic theory of numbers, diophantine analysis and numerical calculus. Thanks to epistemological analysis, and the discovery of hitherto unknown material, the author has brought these chapters into the light, proposes another periodization for classical mathematics, and questions current ideology in writing its history. Since the publication of the French version of these studies and of this book, its main results have been admitted by historians of Arabic mathematics, and integrated into their recent publications. This book is already a vital reference for anyone seeking to understand history of Arabic mathematics, and its contribution to Latin as well as to later mathematics. The English translation will be of particular value to historians and philosophers of mathematics and of science.




Al-Khwārizmī


Book Description

The first critical edition of Al-Khwarizmi's Algebra.




The Analytic Art


Book Description

This historic work consists of several treatises that developed the first consistent, coherent, and systematic conception of algebraic equations. Originally published in 1591, it pioneered the notion of using symbols of one kind (vowels) for unknowns and of another kind (consonants) for known quantities, thus streamlining the solution of equations. Francois Viète (1540-1603), a lawyer at the court of King Henry II in Tours and Paris, wrote several treatises that are known collectively as The Analytic Art. His novel approach to the study of algebra developed the earliest articulated theory of equations, allowing not only flexibility and generality in solving linear and quadratic equations, but also something completely new—a clear analysis of the relationship between the forms of the solutions and the values of the coefficients of the original equation. Viète regarded his contribution as developing a "systematic way of thinking" leading to general solutions, rather than just a "bag of tricks" to solve specific problems. These essays demonstrate his method of applying his own ideas to existing usage in ways that led to clear formulation and solution of equations.




Līlāvatī of Bhāskarācārya


Book Description

In 1150 AD, Bhaskaracarya (b. 1114 AD), renowned mathematician and astronomer of Vedic tradition composed Lilavati as the first part of his larger work called Siddhanta Siromani, a comprehensive exposition of arithmetic, algebra, geometry, mensuration, number theory and related topics. Lilavati has been used as a standard textbook for about 800 years. This lucid, scholarly and literary presentation has been translated into several languages of the world. Bhaskaracarya himself never gave any derivations of his formulae. N.H. Phadke (1902-1973) worked hard to construct proofs of several mathematical methods and formulae given in original Lilavati. The present work is an enlargement of his Marathi work and attempts a thorough mathematical explanation of definitions, formulae, short cuts and methodology as intended by Bhaskara. Stitches are followed by literal translations so that the reader can enjoy and appreciate the beauty of accurate and musical presentation in Lilavati. The book is useful to school going children, sophomores, teachers, scholars, historians and those working for cause of mathematics.




Algorithmic Algebra


Book Description

Algorithmic Algebra studies some of the main algorithmic tools of computer algebra, covering such topics as Gröbner bases, characteristic sets, resultants and semialgebraic sets. The main purpose of the book is to acquaint advanced undergraduate and graduate students in computer science, engineering and mathematics with the algorithmic ideas in computer algebra so that they could do research in computational algebra or understand the algorithms underlying many popular symbolic computational systems: Mathematica, Maple or Axiom, for instance. Also, researchers in robotics, solid modeling, computational geometry and automated theorem proving community may find it useful as symbolic algebraic techniques have begun to play an important role in these areas. The book, while being self-contained, is written at an advanced level and deals with the subject at an appropriate depth. The book is accessible to computer science students with no previous algebraic training. Some mathematical readers, on the other hand, may find it interesting to see how algorithmic constructions have been used to provide fresh proofs for some classical theorems. The book also contains a large number of exercises with solutions to selected exercises, thus making it ideal as a textbook or for self-study.