The present book is an introduction to the philosophy of mathematics. It asks philosophical questions concerning fundamental concepts, constructions and methods - this is done from the standpoint of mathematical research and teaching. It looks for answers both in mathematics and in the philosophy of mathematics from their beginnings till today. The reference point of the considerations is the introducing of the reals in the 19th century that marked an epochal turn in the foundations of mathematics.
In the book problems connected with the concept of a number, with the infinity, the continuum and the infinitely small, with the applicability of mathematics as well as with sets, logic, provability and truth and with the axiomatic approach to mathematics are considered. In Chapter 6 the meaning of infinitesimals to mathematics and to the elements of analysis is presented.
The authors of the present book are mathematicians. Their aim is to introduce mathematicians and teachers of mathematics as well as students into the philosophy of mathematics. The book is suitable also for professional philosophers as well as for students of philosophy, just because it approaches philosophy from the side of mathematics. The knowledge of mathematics needed to understand the text is elementary.
Reports on historical conceptions.
Thinking about today's mathematical doing and thinking.
Recent developments.
Based on the third, revised German edition.
For mathematicians - students, teachers, researchers and lecturers - and readersinterested in mathematics and philosophy.
Contents On the way to the reals On the history of the philosophy of mathematics On fundamental questions of the philosophy of mathematics Sets and set theories Axiomatic approach and logic Thinking and calculating infinitesimally – First nonstandard steps Retrospection
Preguntas frecuentes
¿Cómo cancelo mi suscripción?
Simplemente, dirígete a la sección ajustes de la cuenta y haz clic en «Cancelar suscripción». Así de sencillo. Después de cancelar tu suscripción, esta permanecerá activa el tiempo restante que hayas pagado. Obtén más información aquí.
¿Cómo descargo los libros?
Por el momento, todos nuestros libros ePub adaptables a dispositivos móviles se pueden descargar a través de la aplicación. La mayor parte de nuestros PDF también se puede descargar y ya estamos trabajando para que el resto también sea descargable. Obtén más información aquí.
¿En qué se diferencian los planes de precios?
Ambos planes te permiten acceder por completo a la biblioteca y a todas las funciones de Perlego. Las únicas diferencias son el precio y el período de suscripción: con el plan anual ahorrarás en torno a un 30 % en comparación con 12 meses de un plan mensual.
¿Qué es Perlego?
Somos un servicio de suscripción de libros de texto en línea que te permite acceder a toda una biblioteca en línea por menos de lo que cuesta un libro al mes. Con más de un millón de libros sobre más de 1000 categorías, ¡tenemos todo lo que necesitas! Obtén más información aquí.
¿Perlego ofrece la función de texto a voz?
Busca el símbolo de lectura en voz alta en tu próximo libro para ver si puedes escucharlo. La herramienta de lectura en voz alta lee el texto en voz alta por ti, resaltando el texto a medida que se lee. Puedes pausarla, acelerarla y ralentizarla. Obtén más información aquí.
¿Es Philosophy of Mathematics un PDF/ePUB en línea?
Sí, puedes acceder a Philosophy of Mathematics de Thomas Bedürftig, Roman Murawski en formato PDF o ePUB, así como a otros libros populares de Mathematics y History & Philosophy of Mathematics. Tenemos más de un millón de libros disponibles en nuestro catálogo para que explores.
Between the intuitional idea and the mathematical formulation which should describe the scientifically substantial elements of our intuition in precise terms, there will always remain a gap.3
Richard Courant
In this chapter we will try to trace the mathematical base of the reals and to present briefly their setting and mathematical foundations, in order to formulate problems of a philosophical, methodological and mathematical nature. We state, once again, as already indicated in the Introduction, the ignorance of those problems as well as the pragmatism in putting reals as the universal base of mathematics. One pragmatically carries on doing mathematics. The reals seem to be always there. They became quasi “natural” numbers for mathematicians. In this chapter, first of all, we want to call attention to questions lying in the background of the reals by observing carefully the way they are introduced and indicating details and problems appearing there. For the sake of clarity we choose a short and pointed formulation of the problems.
The way to the real numbers ℝ begins – as almost everything in mathematics does – with (genuine) natural numbers ℕ. We choose in this chapter a subsequent starting point: the rational numbers ℚ. It is the starting point of someone learning mathematics who does not know anything about the reals. So we put ourselves consciously in the position of a student learning mathematics – it is similar to a position of the Pythagoreans 2500 years ago. All we have and know are rational numbers and nothing else. It is a requirement in this chapter to abandon really completely all our previous knowledge. About the way from natural to rational numbers we write briefly in Chapter 3.
1.1Irrationality
What is irrationality? Consider the standard example. One looks for a number whose square is 2. It is called √2. The following result is stated everywhere.
Theorem. √2 is irrational.
A standard indirect proof of this is then given. For completeness we also shall give a proof here, and we do this by the oldest way of arguing, which one finds in Elements by Euclid [109, Book X, Section 115a].
Proof. Suppose that
is rational, say
, where m and n have no common divisor (i.e., they are relatively prime). Hence
and 2 ⋅ n2 = m2. So m2 and consequently also m are even, e.g., m = 2 ⋅ a. So n should be odd because by assumption m and n have no common divisor. On the other hand since 4 ⋅ a2 = m2 = 2 ⋅ n2, one gets n2 = 2 ⋅ a2, so n2 is even, and hence n is also even. But this is a contradiction!
What does this theorem actually say? The suggestion, made even to experts, is:
is a number of another type, just an irrational number.
So what is our situation? There is nothing other than rational numbers. Hence “irrational” can mean only
is not rational.
But “not rational” simply means, in the absence of other numbers, the following result.
Theorem.
is not a number.
This means that there is no number whose square is 2. So what is
is a term without any meaning.
One can however write this term to dramatize the question how it can have a sense. But at first it has no sense. So one tries to give
a different sense. Can it not be seen in the next standard example?
We argue thus: from the theorem of Pythagoras it follows that the square with the side being a diagonal of the unit square has a surface area equal to 2, hence the diagonal d has length
If we put d on the number line then
can be seen there as the length of d:
This is the next suggestion which misleads an insider and lecturer and seduces a learner to accept
as a number without further ado.
What error have we committed? We naively assume that every point on a line on which we have visualized rational numbers as points represents a number. For numbers lie there densely. But what numbers do we have? Rational numbers! And just to such numbers belongs a point on a number line. Since
is not rational, we have found no num...
Índice
Cover
Title Page
Copyright
Contents
Preface
Introduction
1 On the way to the reals
2 On the history of the philosophy of mathematics
3 On fundamental questions of the philosophy of mathematics
4 Sets and set theories
5 Axiomatic approach and logic
6 Thinking and calculating infinitesimally – First nonstandard steps
7 Retrospection
Biographies
Bibliography
Index of names
Index of symbols
Index of subjects
Estilos de citas para Philosophy of Mathematics
APA 6 Citation
Bedürftig, T., & Murawski, R. (2018). Philosophy of Mathematics (1st ed.). De Gruyter. Retrieved from https://www.perlego.com/book/863874/philosophy-of-mathematics-pdf (Original work published 2018)
Chicago Citation
Bedürftig, Thomas, and Roman Murawski. (2018) 2018. Philosophy of Mathematics. 1st ed. De Gruyter. https://www.perlego.com/book/863874/philosophy-of-mathematics-pdf.
Harvard Citation
Bedürftig, T. and Murawski, R. (2018) Philosophy of Mathematics. 1st edn. De Gruyter. Available at: https://www.perlego.com/book/863874/philosophy-of-mathematics-pdf (Accessed: 14 October 2022).
MLA 7 Citation
Bedürftig, Thomas, and Roman Murawski. Philosophy of Mathematics. 1st ed. De Gruyter, 2018. Web. 14 Oct. 2022.
