Audiolibro: Foundations of Geometry
- Download Preface, Contents, and Introduction audio
- Download The elements of geometry and the five groups of axioms audio
- Download Group I: Axioms of connection audio
- Download Group II: Axioms of Order audio
- Download Consequences of the axioms of connection and order audio
- Download Group III: Axioms of Parallels (Euclid's axiom) audio
- Download Group IV: Axioms of congruence audio
- Download Consequences of the axioms of congruence audio
- Download Group V: Axiom of Continuity (Archimedes's axiom) audio
- Download Compatibility of the axioms audio
- Download Independence of the axioms of parallels. Non-euclidean geometry audio
- Download Independence of the axioms of congruence audio
- Download Independence of the axiom of continuity. Non-archimedean geometry audio
- Download Complex number-systems audio
- Download Demonstrations of Pascal's theorem audio
- Download An algebra of segments, based upon Pascal's theorem audio
- Download Proportion and the theorems of similitude audio
- Download Equations of straight lines and of planes audio
- Download Equal area and equal content of polygons audio
- Download Parallelograms and triangles having equal bases and equal altitudes audio
- Download The measure of area of triangles and polygons audio
- Download Equality of content and the measure of area audio
- Download Desargues's theorem and its demonstration for plane geometry by aid of the axiom of congruence audio
- Download The impossibility of demonstrating Desargues's theorem for the plane with the help of the axioms of congruence audio
- Download Introduction to the algebra of segments based upon the Desargues's theorme audio
- Download The commutative and associative law of addition for our new algebra of segments audio
- Download The associative law of multiplication and the two distributive laws for the new algebra of segments audio
- Download Equation of straight line, based upon the new algebra of segments audio
- Download The totality of segments, regarded as a complex number system audio
- Download Construction of a geometry of space by aid of a desarguesian number system audio
- Download Significance of Desargues's theorem audio
- Download Two theorems concerning the possibility of proving Pascal's theorem audio
- Download The commutative law of multiplication for an archimedean number system audio
- Download The commutative law of multiplication for a non-archimedean number system audio
- Download Proof of the two propositions concerning Pascal's theorem. Non-pascalian geometry audio
- Download The demonstation, by means of the theorems of Pascal and Desargues audio
- Download Analytic representation of the co-ordinates of points which can be so constructed audio
- Download Geometrical constructions by means of a straight-edge and a transferer of segments audio
- Download The representation of algebraic numbers and of integral rational functions as sums of squares audio
- Download Criterion for the possibility of a geometrical construction by means of a straight-edge and a transferer of segments audio
- Download Conclusion audio
- Download Appendix audio
Géneros de audiolibros
Autor
Descripción
The German mathematician David Hilbert was one of the most influential mathematicians of the 19th/early 20th century. Hilbert's 20 axioms were first proposed by him in 1899 in his book Grundlagen der Geometrie as the foundation for a modern treatment of Euclidean geometry.
Hilbert's axiom system is constructed with six primitive notions: the three primitive terms point, line, and plane, and the three primitive relations Betweenness (a ternary relation linking points), Lies on (or Containment, three binary relations between the primitive terms), and Congruence (two binary relations, one linking line segments and one linking angles).
The original monograph in German was based on Hilbert's own lectures and was organized by himself for a memorial address given in 1899. This was quickly followed by a French translation with changes made by Hilbert; an authorized English translation was made by E.J. Townsend in 1902. This translation - from which this audiobook has been read - already incorporated the changes made in the French translation and so is considered to be a translation of the 2nd edition.
¿Te gustó lo que escuchaste? ¡Compártelo con tus amigos y familiares!.