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Mathematics in 20th century

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MATHEMATICS IN 20TH CENTURY Start: Axiomatic method, strongly influenced by David Hilbert s example The logical formulation of pure mathematics suggested by ... – PowerPoint PPT presentation

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Title: Mathematics in 20th century


1
Mathematics in 20th century
2
Start
  • Axiomatic method, strongly influenced by David
    Hilberts example
  • The logical formulation of pure mathematics
    suggested by Bertrand Russell
  • Pure mathematician became a recognized vocation,
    to be achieved through training.

3
Generality and abstraction
  • IDEA OF GENERALITY
  • Pure mathematics often exhibits a trend towards
    increased generality.
  • Generality has many different manifestations.

4
Certain benefits of generality
  1. Generalizing theorems or mathematical structures
    can lead to deeper understanding of the original
    theorems or structures by exploring the
    implications of weakening the assumptions, one
    gains a better understanding of the role those
    assumptions play in the original theorems or
    structures.
  2. Generality can simplify the presentation of
    material, resulting in shorter proofs or
    arguments that are easier to follow.
  3. One can use generality to avoid duplication of
    effort, proving a general results from other
    areas of mathematics.
  4. Generality can facilitate connections between
    different branches of mathematics, by emphasizing
    commonality of structure that may not be apparent
    at less general levels. Category theory is one
    area of mathematics dedicated to exploring this
    commonality of structure as it plays out in some
    areas of math.

5
20th century Summary
  • The profession of mathematician became much more
    important.
  • Jobs are available both in teaching and industry.
  • In 1900 David Hilbert presented a list of 23
    unsolved problems
  • In the 1910s, Srinivasa Aiyangar Ramanujan
    developed over 3000 theorems.
  • In 1931, Kurt Goedel published his two
    incompleteness theorems
  • Wolfganag Haken and Kenneth Appel used a computer
    to prove the four color theorem in 1976.
  • Andrew Wiles proved Fermats last theorem in 1995
  • New areas of mathematics mathematical logic,
    topology, complexity theory, and game theory.
  • Mathematics was even findin its way into art, as
    fractal geometry produced beautiful shapes never
    before seen.

6
David Hilbert (January 23, 1862 February 14,
1943)
  • German mathematician
  • One of the most influential and universal
    mathematicians
  • He invented or developed a broad range of
    fundamental ideas, in invariant theory, the
    axiomatization of geometry, and with the notion
    of Hilbert space, one of the foundations of
    functional analysis
  • He defended Georg cantors set theory and
    transfinite numbers
  • One of the founders of proof theory, mathematical
    logic and
  • the distinction between mathematics and
    metamathematics

7
Srinivasa Ramanujan Iyengar (22 December, 1887
26 April, 1920)
  • Indian mathematician
  • One of the greatest mathematical genius
  • He made substantial contributions in the areas of
    mathematical analysis, number theory, infinite
    series and continued fractions
  • Independently compiled nearly 3900 results during
    his short lifetime

8
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9
Kurt Goedel (April 28, 1906 January 14, 1978)
  • Austrian American mathematician and philosopher
  • His work has had immense impact upon scientific
    and philosophical thinking
  • Two incompleteness theorems by the age of 25
  • for any self-consistent recursive axiomatic
    system powerful enough to describe the aritmetic
    of the natural numbers, there are true
    propositions about the naturals that cannot be
    proved from the axioms.
  • He showed that the continuum hypothesis cannot be
    disproved from the accepted axioms of set theory,
    if those axioms are consistent

10
Wolfgang Haken (born June 21, 1928)
  • Mathematician who specializes in topology
  • In 1976 with Kenneth Appel, solved one of the
    most famous problem in mathematics, the
    four-color theorem.
  • One of his key contributions to algorithmic
    topology is an algorithm to detect if a knot is
    unknotted

11
Kenneth Appel (born 1932)
  • In 1976 with Wolfgang Haken, solved one of the
    most famous problem in mathematics, the
    four-color theorem.

12
The four-color theorem
  • Haken and Appel proved that any two-dimensional
    map, with certain limitations, can be filled in
    with four colors without any adjacent countries
    sharing the same coulor.

13
Sir Andrew John Wiles (born April 11, 1953)
  • British research mathematician at Princeton
    University
  • Specialised for number theory
  • Most famous for proving Fermats Last Theorem

14
The End
  • Ivana Balatinac
  • Irena Brdar
  • Mirna Brekalo
  • Antonija Chorich
  • Marija Zovko
  • In Osijek
  • May 19th, 2008
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