Difference between revisions of "Arithmetization of analysis"
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| − | The phrase "arithmetization of analysis" refers to 19th century efforts to create a "theory of real numbers ... using set-theoretic constructions, starting from the natural numbers." <ref>[[Arithmetization]] | + | The phrase "arithmetization of analysis" refers to 19th century efforts to create a "theory of real numbers ... using set-theoretic constructions, starting from the natural numbers." <ref>[[Arithmetization]]</ref> |
These efforts took place over a period of about 50 years, which saw the following: | These efforts took place over a period of about 50 years, which saw the following: | ||
# the establishment of fundamental concepts related to limits | # the establishment of fundamental concepts related to limits | ||
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"The theory of real numbers is logically the starting point of analysis in the real domain; historically its creation marks the end of this period."<ref>Vojtěch Jarník (author); Josef Novák (other); Jaroslav Folta (other); Jiří Jarník (other): Bolzano and the Foundations of Mathematical Analysis. (English). Praha: Society of Czechoslovak Mathematicians and Physicists, 1981. pp. 33--42, http://dml.cz/dmlcz/400082.</ref> | "The theory of real numbers is logically the starting point of analysis in the real domain; historically its creation marks the end of this period."<ref>Vojtěch Jarník (author); Josef Novák (other); Jaroslav Folta (other); Jiří Jarník (other): Bolzano and the Foundations of Mathematical Analysis. (English). Praha: Society of Czechoslovak Mathematicians and Physicists, 1981. pp. 33--42, http://dml.cz/dmlcz/400082.</ref> | ||
| − | Prior to these efforts, analysis rested on two pillars: the discrete side on arithmetic, the continuous side on geometry. <ref> | + | Prior to these efforts, analysis rested on two pillars: the discrete side on arithmetic, the continuous side on geometry. <ref>Stillwell</ref> |
| − | "The analytic work of L. Euler, K. Gauss, A. Cauchy, B. Riemann, and others led to a shift towards the predominance of algebraic and arithmetic ideas | + | "The analytic work of L. Euler, K. Gauss, A. Cauchy, B. Riemann, and others led to a shift towards the predominance of algebraic and arithmetic ideas. In the late nineteenth century, this tendency culminated in the so-called arithmetization of analysis, due principally to K. Weierstrass, G. Cantor, and R. Dedekind."<ref>Hatcher 2000, 3.2 The Arithmetization of Analysis</ref> |
==Notes== | ==Notes== | ||
<references /> | <references /> | ||
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| + | ==References== | ||
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| + | * [[Arithmetization]], Encyclopedia of Mathematics. URL: http://www.encyclopediaofmath.org/index.php?title=Arithmetization&oldid=31486 | ||
| + | * Hatcher, William S. (2000), ''Foundations of Mathematics: An Overview at the Close of the Second Millenium'', Switzerland: Landegg Academy, URL: http://bahai-library.com/hatcher_foundations_mathematics | ||
| + | * Stillwell, John Colin (2013) "The Arithmetizaton of Analysis". ''Encyclopedia Britannica'' | ||
Revision as of 03:24, 16 April 2014
The phrase "arithmetization of analysis" refers to 19th century efforts to create a "theory of real numbers ... using set-theoretic constructions, starting from the natural numbers." [1] These efforts took place over a period of about 50 years, which saw the following:
- the establishment of fundamental concepts related to limits
- the derivation of the main theorems concerning those concepts
- the creation of the theory of real numbers.
"The theory of real numbers is logically the starting point of analysis in the real domain; historically its creation marks the end of this period."[2]
Prior to these efforts, analysis rested on two pillars: the discrete side on arithmetic, the continuous side on geometry. [3]
"The analytic work of L. Euler, K. Gauss, A. Cauchy, B. Riemann, and others led to a shift towards the predominance of algebraic and arithmetic ideas. In the late nineteenth century, this tendency culminated in the so-called arithmetization of analysis, due principally to K. Weierstrass, G. Cantor, and R. Dedekind."[4]
Notes
- ↑ Arithmetization
- ↑ Vojtěch Jarník (author); Josef Novák (other); Jaroslav Folta (other); Jiří Jarník (other): Bolzano and the Foundations of Mathematical Analysis. (English). Praha: Society of Czechoslovak Mathematicians and Physicists, 1981. pp. 33--42, http://dml.cz/dmlcz/400082.
- ↑ Stillwell
- ↑ Hatcher 2000, 3.2 The Arithmetization of Analysis
References
- Arithmetization, Encyclopedia of Mathematics. URL: http://www.encyclopediaofmath.org/index.php?title=Arithmetization&oldid=31486
- Hatcher, William S. (2000), Foundations of Mathematics: An Overview at the Close of the Second Millenium, Switzerland: Landegg Academy, URL: http://bahai-library.com/hatcher_foundations_mathematics
- Stillwell, John Colin (2013) "The Arithmetizaton of Analysis". Encyclopedia Britannica
How to Cite This Entry:
Arithmetization of analysis. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Arithmetization_of_analysis&oldid=31767
Arithmetization of analysis. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Arithmetization_of_analysis&oldid=31767