A mathematician’s Divina Commedia -...
Transcript of A mathematician’s Divina Commedia -...
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
A mathematician’s Divina Commediahis travels through the three realms: the physical, the virtual,
and the platonic
H. Schoutens
Department of MathematicsNew York City College of Technology
April 19, 2010Scholar-on-Campus
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
DisclaimerNone of what I say is potentially nearly as false as it soundsplausibly true.
![Page 3: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/3.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
DisclaimerNone of what I say is potentially nearly as false as it soundsplausibly true.
![Page 4: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/4.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
DisclaimerNone of what I say is potentially nearly as false as it soundsplausibly true.
![Page 5: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/5.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
DisclaimerNone of what I say is potentially nearly as false as it soundsplausibly true.
![Page 6: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/6.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
DisclaimerNone of what I say is potentially nearly as false as it soundsplausibly true.
![Page 7: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/7.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Three scientific paradigms
First paradigmThe physical (inanimate) world can be modeled bymathematics.
Second paradigmMathematics is developed rigorously through logical reasoningand hence generates irrefutable truths.
Third paradigm
Computers can emulate this modeling, albeit only a finiteportion of it.
Sentimental ParadigmMathematics is most beautiful and most perfect.
![Page 8: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/8.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Three scientific paradigms
First paradigmThe physical (inanimate) world can be modeled bymathematics.
Second paradigmMathematics is developed rigorously through logical reasoningand hence generates irrefutable truths.
Third paradigm
Computers can emulate this modeling, albeit only a finiteportion of it.
Sentimental ParadigmMathematics is most beautiful and most perfect.
![Page 9: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/9.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Three scientific paradigms
First paradigmThe physical (inanimate) world can be modeled bymathematics.
Second paradigmMathematics is developed rigorously through logical reasoningand hence generates irrefutable truths.
Third paradigm
Computers can emulate this modeling, albeit only a finiteportion of it.
Sentimental ParadigmMathematics is most beautiful and most perfect.
![Page 10: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/10.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Three scientific paradigms, and a sentimental one
First paradigmThe physical (inanimate) world can be modeled bymathematics.
Second paradigmMathematics is developed rigorously through logical reasoningand hence generates irrefutable truths.
Third paradigm
Computers can emulate this modeling, albeit only a finiteportion of it.
Sentimental ParadigmMathematics is most beautiful and most perfect.
![Page 11: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/11.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
![Page 12: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/12.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Infinity∞
Definition (Galileo 1564–1642)A collection is infinite if it fits inside a smaller part of itself.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Infinity∞
Definition (Galileo 1564–1642)A collection is infinite if it fits inside a smaller part of itself.
Example (Hilbert’s Grand Hotel)Imagine a hotel with a room for each number.
Even if the hotelis booked full, a new guest can be accomodated by havingeveryone change to the next room.
1 2 3 4 5
. . .
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Infinity∞
Definition (Galileo 1564–1642)A collection is infinite if it fits inside a smaller part of itself.
Example (Hilbert’s Grand Hotel)Imagine a hotel with a room for each number. Even if the hotelis booked full, a new guest can be accomodated by havingeveryone change to the next room.
1
,,
2
,,
3
,,
4
,,
5
** . . .
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Infinity∞
Definition (Galileo 1564–1642)A collection is infinite if it fits inside a smaller part of itself.
Example (Hilbert’s Grand Hotel)Imagine a hotel with a room for each number. Even if the hotelis booked full, a new guest can be accomodated by havingeveryone change to the next room.
1
,,
2
,,
3
,,
4
,,
5
** . . .
CorollaryThere are infinitely many numbers.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Infinity∞
Definition (Galileo 1564–1642)A collection is infinite if it fits inside a smaller part of itself.
Example (Euclid’s line segment)Points on a line segment.
-
−1 −12 0 1
2 1s s
↘ ↓ ↙
-
−1 −12 0 1
2 1s s
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Infinity∞
Definition (Galileo 1564–1642)A collection is infinite if it fits inside a smaller part of itself.
Example (Euclid’s line segment)Points on a line segment can be squeezed together.
-
−1 −12 0 1
2 1s s
↘ ↓ ↙
-
−1 −12 0 1
2 1s s
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Finiteness: the Pigeon-Hole Principle
TheoremIf there are more pigeons than holes, at least two will have toshare a hole.
Proof.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Finiteness: the Pigeon-Hole Principle
TheoremIf there are more pigeons than holes, at least two will have toshare a hole.
Proof.
![Page 20: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/20.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Finiteness: the Pigeon-Hole Principle
TheoremIf there are more pigeons than holes, at least two will have toshare a hole.
Proof.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Finiteness: the Pigeon-Hole Principle
TheoremIf there are more pigeons than holes, at least two will have toshare a hole.
Proof.
![Page 22: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/22.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
Philosophers and scientists about
Physical world
Plato: shadowsAristotle: apeiron = potential infinity.
Zoroaster: finite timeNewton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical world
ideasno actual infinityendless timemechanismrelativityuncertaintysingularitysoftware = unlimited
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(428 BC–347 BC)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster: finite time
Newton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical worldideas
no actual infinityendless timemechanismrelativityuncertaintysingularitysoftware = unlimited
![Page 24: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/24.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(384 BC–322 BC)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.
Zoroaster: finite timeNewton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical worldideasno actual infinity
endless timemechanismrelativityuncertaintysingularitysoftware = unlimited
![Page 25: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/25.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(ca. 1500 BC)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster:!"#"$"%&!'()*++,&'!-+$+.&%!+*'/&01!'2*,&!'(+3+&223#&!'()&45&6!
&7&$8!+*'/&0!+*$92:&$&;!<&=!&)&'!-++)&1!>7;&'!-$2/&!-=!'?3(gaeTa)
finite timeNewton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical worldideasno actual infinity
3/19/10 1:47AVESTA: KHORDA AVESTA: YASHTS (Hymns)
Page 1 of 324http://www.avesta.org/ka/yt_jamaspa.htm#yt10
Avesta -- Zoroastrian Archives Contents Prev yt_jamaspa Next Glossary
AVESTA: KHORDA AVESTA: YASHTS
(Hymns)
NOTE: You will need Avestan fonts in order to read this text.
1. Ohrmazd Yasht.
,eAdaX ,i ,dzvmrOh ,`,&dzaY ,i ,m&n ,ap) 0`,TAyAzaBa ,eharaX ,zrug ,InUzaBa ,i
,dNameharaX ,i ,dNamear ,i ,dzvmrOh ,rAdAd`,TAsar ,Vb ,mutVb ,i ,Oyniam ,&uyniam
`,mOn&mVSap ,titap ,hAnug ,Amah ,Zv ,tSvraWZud ,txUZud ,tamSud ,nItsiWarah ,Zv
,tsaj ,meaW ,drak ,meaW ,tfug ,meaW ,TInim ,IqVg ,ap ,nvm`,Tvtsv ,TUb ,nub ,meaW
,InSinuk ,InSvBag ,InSinam ,AhihAnug ,& ,Zv,&mVSap ,SxaBa ,exO ,In&uyniam ,IqVg ,In&wr ,Inat
,(.,mOh ,titap ,ap ,InSvBag ,vs ,ap
,ldzam ,eharuha ,arqoanCx `,SuVyniam ,eharMa ,itIdiOrat
.,mvmvtOCarvf ,AnsaW ,Tayh ,m&tSrawAyqiah,AcsaybiOtSrawh ,AcsaybiOtxUh ,AcsaybiOtamuh ,Eyutsarvf
,AcsaybiOBq&m,Eqiad ,Ayriagibia ,`,AcsaybiOwtSraW ,AcsaybiOBDvxaW
,AcAtxUh ,AcAtamuh ,ApsIW,AcAtxUZud ,AcAtamSud ,ApsIW ,Eqiad ,Ayciritiap
,`,AcAtSrawh.,AcAtSrawZud
(mainiiu)
endlesstimemechanismrelativityuncertaintysingularitysoftware = unlimited
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(ca. 1500 BC)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster: finite time
Newton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical worldideasno actual infinityendless time
mechanismrelativityuncertaintysingularitysoftware = unlimited
![Page 27: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/27.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(1643–1727)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster: finite time
Newton: infinite Euclidean space
Einstein: universe is bounded,Planck: and discrete,
Hawking: and expanding.Turing: hardware = limited
Metaphysical worldideasno actual infinityendless timemechanism
relativityuncertaintysingularitysoftware = unlimited
![Page 28: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/28.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(1879–1955)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster: finite time
Newton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical worldideasno actual infinityendless timemechanismrelativity
uncertaintysingularitysoftware = unlimited
![Page 29: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/29.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(1858–1947)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster: finite time
Newton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,
Hawking: and expanding.Turing: hardware = limited
Metaphysical worldideasno actual infinityendless timemechanismrelativityuncertainty
singularitysoftware = unlimited
![Page 30: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/30.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(1942–)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster: finite time
Newton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical worldideasno actual infinityendless timemechanismrelativityuncertaintysingularity
software = unlimited
![Page 31: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/31.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Schools of thought
(1912–1954)
Physical worldPlato: shadows
Aristotle: apeiron = potential infinity.Zoroaster: finite time
Newton: infinite Euclidean spaceEinstein: universe is bounded,
Planck: and discrete,Hawking: and expanding.
Turing: hardware = limited
Metaphysical worldideasno actual infinityendless timemechanismrelativityuncertaintysingularitysoftware = unlimited
![Page 32: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/32.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
![Page 33: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/33.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Example (Matiyasevich ’70)No computer can check whether a random equation has asolution.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
![Page 34: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/34.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
![Page 35: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/35.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
Example (Knuth ’76)Recursion can create unfathomable numbers.
a ↑n b := a ↑ . . . ↑ b︸ ︷︷ ︸n
![Page 36: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/36.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
Example (Knuth ’76)Recursion can create unfathomable numbers. For instance, thisis a self-referential definition of Knuth’s arrow
a ↑n b := a ↑n−1 a ↑n−1 . . . ↑n−1 a︸ ︷︷ ︸b
![Page 37: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/37.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
Example (Knuth ’76)Recursion can create unfathomable numbers.
3 ↑ 3 = 33 = 27
3 ↑↑ 3 = 333= 7, 625, 597, 484, 987
3 ↑↑↑ 3 is an immense number;9 ↑9 9 is unfathomable, and to our mind looks like infinity.
![Page 38: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/38.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
Example (Knuth ’76)Recursion can create unfathomable numbers.
3 ↑ 3 = 33 = 273 ↑↑ 3 = 333
= 7, 625, 597, 484, 987
3 ↑↑↑ 3 is an immense number;9 ↑9 9 is unfathomable, and to our mind looks like infinity.
![Page 39: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/39.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
Example (Knuth ’76)Recursion can create unfathomable numbers.
3 ↑ 3 = 33 = 273 ↑↑ 3 = 333
= 7, 625, 597, 484, 9873 ↑↑↑ 3 is an immense number;
9 ↑9 9 is unfathomable, and to our mind looks like infinity.
![Page 40: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/40.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mind versus machine
Theorem (Godel ’31)Some mathematical facts can never be obtained by a computer.
Anti-theoremComputers can model facts that cannot be grasped by ourhuman minds.
Example (Knuth ’76)Recursion can create unfathomable numbers.
3 ↑ 3 = 33 = 273 ↑↑ 3 = 333
= 7, 625, 597, 484, 9873 ↑↑↑ 3 is an immense number;9 ↑9 9 is unfathomable, and to our mind looks like infinity.
![Page 41: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/41.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision
Example (engineering)Number of seconds in a(Julian) year:3600× 24× 365.25 =31557600
![Page 42: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/42.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision approximation
Example (engineering)Number of seconds in a(Julian) year:3600× 24× 365.25 =30000000 ≈ 3× 107
![Page 43: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/43.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision approximationunrestricted
Example (cosmology)
Collision speed of two lightparticles:vcoll = v1 + v2 = c + c
![Page 44: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/44.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision approximationunrestricted restricted
Example (cosmology)
Collision speed of two lightparticles:vcoll = v1 + v2 = c + c = c
![Page 45: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/45.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision approximationunrestricted restrictedaccuracy
Example (computing)In a 1K-computer, we have:881×883 = 777923
≡ 923mod 1000
![Page 46: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/46.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision approximationunrestricted restrictedaccuracy modularity
Example (computing)In a 1K-computer, we have:881×883 = 777923 ≡ 923mod 1000
![Page 47: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/47.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision approximationunrestricted restrictedaccuracy modularityentropy
Example (cryptography)Multiplying :881×883 99K
= 777923
≡ 923mod 1000
![Page 48: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/48.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dealing with big numbers
Adjustmentprecision approximationunrestricted restrictedaccuracy modularityentropy algorithm
Example (cryptography)Multiplying versus factoring:881×883 L99
= 777923
≡ 923mod 1000
![Page 49: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/49.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
![Page 50: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/50.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension of a line
Definition (Dimension)Dimension is the number of independent directions in which wecan move.
We can go left
or right
Going left is the same as going right backwards, so, as adirection, it is dependent:
� � line is one-dimensional
. . . |0
. . .
![Page 51: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/51.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension of a line
Definition (Dimension)Dimension is the number of independent directions in which wecan move.
We can go left
or rightGoing left is the same as going right backwards, so, as adirection, it is dependent:
� � line is one-dimensional
��� |0
. . .
![Page 52: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/52.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension of a line
Definition (Dimension)Dimension is the number of independent directions in which wecan move.
We can go left or right
Going left is the same as going right backwards, so, as adirection, it is dependent:
� � line is one-dimensional
��� |0
� ��
![Page 53: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/53.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension of a line
Definition (Dimension)Dimension is the number of independent directions in which wecan move.
We can go left or rightGoing left is the same as going right backwards, so, as adirection, it is dependent:
� � line is one-dimensional
��� |0
� ��←−
![Page 54: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/54.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension of a line
Definition (Dimension)Dimension is the number of independent directions in which wecan move.
We can go left or rightGoing left is the same as going right backwards, so, as adirection, it is dependent:
� � line is one-dimensional
. . . |0
. . .
![Page 55: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/55.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensional
Newton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory:
10-dimensionaluniverse(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
OO
��
oo //|0
Flat geometry
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 56: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/56.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensional
Earth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory:
10-dimensionaluniverse(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
OO
��
oo //|0
����������
AA
Flat geometry
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 57: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/57.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensional
Einstein’s universe is 4-dimensionalString theory:
10-dimensionaluniverse(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
Elliptic geometry
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 58: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/58.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensional
String theory:
10-dimensionaluniverse(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
Hyperbolic geometry
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 59: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/59.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory:
10-dimensionaluniverse
(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
•••••
•••••
•••••
•••••
•••••
•••••
•••••
x//
yOO
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 60: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/60.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory:
10-dimensionaluniverse
(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
•••••
•••••
•••••
•••••
•}
•••
•••••
•••••
x//
yOO
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 61: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/61.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory:
10-dimensionaluniverse
(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
•••••
•••••
•••••
•••••
•}
•••
•••••
•••••
x//
yOO
particles are little stringsthey can wrap around aCalabi-Yau manifold
![Page 62: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/62.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory: 10-dimensionaluniverse
(but about 10500 possible ones)Witten’s solution: make universe11-dimensional
}x//
yOO
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 63: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/63.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory: 10-dimensionaluniverse(but about 10500 possible ones)
Witten’s solution: make universe11-dimensional
}x//
yOO
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 64: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/64.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory: 10-dimensionaluniverse(but about 10500 possible ones)Witten’s solution: make universe11-dimensional
particles are little strings
they can wrap around aCalabi-Yau manifold
![Page 65: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/65.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Dimension and curvature
Descartes’ plane is 2-dimensionalNewton’s universe is 3-dimensionalEarth’s surface is 2-dimensionalEinstein’s universe is 4-dimensionalString theory: 10-dimensionaluniverse(but about 10500 possible ones)Witten’s solution: make universe11-dimensional
particles are little strings
they can wrap around aCalabi-Yau manifold
DefinitionA manifold looks in each point like one of these worlds.
![Page 66: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/66.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mirror symmetry and Enumerative Geometry
TheoremOn a Calabi-Yau manifold, the number of parametric curves ofdegree 5 is n5 = 229305888887625 ≈ 2× 1014.
![Page 67: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/67.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mirror symmetry and Enumerative Geometry
TheoremOn a Calabi-Yau manifold, the number of parametric curves ofdegree 5 is n5 = 229305888887625 ≈ 2× 1014.
Preliminaries.Mirror images are the same (up to chirality).
![Page 68: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/68.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mirror symmetry and Enumerative Geometry
TheoremOn a Calabi-Yau manifold, the number of parametric curves ofdegree 5 is n5 = 229305888887625 ≈ 2× 1014.
Preliminaries.To cheat at Blind Man’s Bluff poker, look into a mirror.
![Page 69: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/69.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mirror symmetry and Enumerative Geometry
TheoremOn a Calabi-Yau manifold, the number of parametric curves ofdegree 5 is n5 = 229305888887625 ≈ 2× 1014.
Preliminaries.With a 3-dimensional mirror, we could see inside a tree anddetermine its age by counting its rings.
![Page 70: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/70.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mirror symmetry and Enumerative Geometry
TheoremOn a Calabi-Yau manifold, the number of parametric curves ofdegree 5 is n5 = 229305888887625 ≈ 2× 1014.
String theoretic proof.
String theory: our universe has a mirror image
in this mirror image, we can read off the value of n5 of itscorresponding Calabi-Yau manifoldmathematical truth is universe-independent, so n5 is thecorrect number in our as well as any alternate universe!
![Page 71: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/71.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mirror symmetry and Enumerative Geometry
TheoremOn a Calabi-Yau manifold, the number of parametric curves ofdegree 5 is n5 = 229305888887625 ≈ 2× 1014.
String theoretic proof.
String theory: our universe has a mirror imagein this mirror image, we can read off the value of n5 of itscorresponding Calabi-Yau manifold
mathematical truth is universe-independent, so n5 is thecorrect number in our as well as any alternate universe!
![Page 72: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/72.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Mirror symmetry and Enumerative Geometry
TheoremOn a Calabi-Yau manifold, the number of parametric curves ofdegree 5 is n5 = 229305888887625 ≈ 2× 1014.
String theoretic proof.
String theory: our universe has a mirror imagein this mirror image, we can read off the value of n5 of itscorresponding Calabi-Yau manifoldmathematical truth is universe-independent, so n5 is thecorrect number in our as well as any alternate universe!
![Page 73: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/73.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Inside a virtual world
Virtual worlds have finite length, often a prime number p.
Example (World of length p = 7)
1
7 PPPPPP6 nnnnnn
5������
4999999
3
2������
&&&&&&
“clock-wise” addition:to add 3 to 5,
move 3 points up3 + 5 = 8 ≡ 1 mod 7.
Virtual worlds can have arbitrary high dimension d . Such amulti-dimensional virtual world has therefore size pd .
![Page 74: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/74.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Inside a virtual world
Virtual worlds have finite length, often a prime number p.
Example (World of length p = 7)
1
0 PPPPPP6 nnnnnn
5������
4999999
3
2������
&&&&&&
“clock-wise” addition:to add 3 to 5,
move 3 points up3 + 5 = 8 ≡ 1 mod 7.
Virtual worlds can have arbitrary high dimension d . Such amulti-dimensional virtual world has therefore size pd .
![Page 75: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/75.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Inside a virtual world
Virtual worlds have finite length, often a prime number p.
Example (World of length p = 7)
1
0 PPPPPP6 nnnnnn
5←������
4999999
3
2������
&&&&&&
“clock-wise” addition:to add 3 to 5,
move 3 points up3 + 5 = 8 ≡ 1 mod 7.
Virtual worlds can have arbitrary high dimension d . Such amulti-dimensional virtual world has therefore size pd .
![Page 76: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/76.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Inside a virtual world
Virtual worlds have finite length, often a prime number p.
Example (World of length p = 7)
1
0 PPPPPP6↖
nnnnnn
5������
4999999
3
2������
&&&&&&
“clock-wise” addition:to add 3 to 5,move 3 points up
3 + 5 = 8 ≡ 1 mod 7.
Virtual worlds can have arbitrary high dimension d . Such amulti-dimensional virtual world has therefore size pd .
![Page 77: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/77.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Inside a virtual world
Virtual worlds have finite length, often a prime number p.
Example (World of length p = 7)
1
0
↑
PPPPPP6 nnnnnn
5������
4999999
3
2������
&&&&&&
“clock-wise” addition:to add 3 to 5,move 3 points up
3 + 5 = 8 ≡ 1 mod 7.
Virtual worlds can have arbitrary high dimension d . Such amulti-dimensional virtual world has therefore size pd .
![Page 78: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/78.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Inside a virtual world
Virtual worlds have finite length, often a prime number p.
Example (World of length p = 7)
1↗
0 PPPPPP6 nnnnnn
5������
4999999
3
2������
&&&&&&
“clock-wise” addition:to add 3 to 5,move 3 points up, so3 + 5 = 8 ≡ 1 mod 7.
Virtual worlds can have arbitrary high dimension d . Such amulti-dimensional virtual world has therefore size pd .
![Page 79: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/79.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Inside a virtual world
Virtual worlds have finite length, often a prime number p.
Example (World of length p = 7)
1
0 PPPPPP6 nnnnnn
5������
4999999
3
2������
&&&&&&
“clock-wise” addition:to add 3 to 5,move 3 points up
3 + 5 = 8 ≡ 1 mod 7.
Virtual worlds can have arbitrary high dimension d . Such amulti-dimensional virtual world has therefore size pd .
![Page 80: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/80.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
![Page 81: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/81.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Symmetry
(group theory) symmetry = transformation preserving themanifold
(crystallography) many physical objects have nice symmetries(tessalation) we can ‘tile’ the manifold to reveal its symmetry(geometry) tile + symmetry manifold
![Page 82: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/82.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Symmetry
(group theory) symmetry = transformation preserving themanifold
(crystallography) many physical objects have nice symmetries
(tessalation) we can ‘tile’ the manifold to reveal its symmetry(geometry) tile + symmetry manifold
![Page 83: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/83.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Symmetry
(group theory) symmetry = transformation preserving themanifold
(crystallography) many physical objects have nice symmetries(tessalation) we can ‘tile’ the manifold to reveal its symmetry
(geometry) tile + symmetry manifold
![Page 84: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/84.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Symmetry
(group theory) symmetry = transformation preserving themanifold
(crystallography) many physical objects have nice symmetries(tessalation) we can ‘tile’ the manifold to reveal its symmetry(geometry) tile + symmetry manifold
![Page 85: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/85.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
The tile space of a symmetry
DefinitionA tile is the smallest part whose copies under the symmetriescover the manifold.
DefinitionEdges of the tile get identified by the symmetry.
Glueing theseedges gives the tile space (or, quotient space).
. . .
. . . .
. . .
. . . .
![Page 86: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/86.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
The tile space of a symmetry
DefinitionA tile is the smallest part whose copies under the symmetriescover the manifold.
DefinitionEdges of the tile get identified by the symmetry.
Glueing theseedges gives the tile space (or, quotient space).
. . .
. . . .
.
}}}}}}} .
}}}}}}} .
. . . .
![Page 87: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/87.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
The tile space of a symmetry
DefinitionA tile is the smallest part whose copies under the symmetriescover the manifold.
DefinitionEdges of the tile get identified by the symmetry.
Glueing theseedges gives the tile space (or, quotient space).
. . .
. . v /o/o/o/o/o/o/o . .
.
u }}}}}}}
}}}}}}} v /o/o/o/o/o/o/o .
u }}}}}}}
}}}}}}} .
. . . .
![Page 88: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/88.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
The tile space of a symmetry
DefinitionA tile is the smallest part whose copies under the symmetriescover the manifold.
DefinitionEdges of the tile get identified by the symmetry. Glueing theseedges gives the tile space (or, quotient space).
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![Page 89: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/89.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
The tile space of a symmetry
DefinitionA tile is the smallest part whose copies under the symmetriescover the manifold.
DefinitionEdges of the tile get identified by the symmetry. Glueing theseedges gives the tile space (or, quotient space).
![Page 90: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/90.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Tile spaces are more general than manifolds
ExampleConsider the rotational symmetries of a triangle.
Each slice is atile. To build the tile space, we glue together its sides. Theresult is a cone, with a sharp vertex.
DefinitionAny point where the space does no longer look like a manifold,is called a singularity.
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![Page 91: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/91.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Tile spaces are more general than manifolds
ExampleConsider the rotational symmetries of a triangle. Each slice is atile.
To build the tile space, we glue together its sides. Theresult is a cone, with a sharp vertex.
DefinitionAny point where the space does no longer look like a manifold,is called a singularity.
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![Page 92: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/92.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Tile spaces are more general than manifolds
ExampleConsider the rotational symmetries of a triangle. Each slice is atile. To build the tile space, we glue together its sides.
Theresult is a cone, with a sharp vertex.
DefinitionAny point where the space does no longer look like a manifold,is called a singularity.
.
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.
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![Page 93: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/93.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Tile spaces are more general than manifolds
ExampleConsider the rotational symmetries of a triangle. Each slice is atile. To build the tile space, we glue together its sides. Theresult is a cone, with a sharp vertex.
DefinitionAny point where the space does no longer look like a manifold,is called a singularity.
.
•
.
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![Page 94: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/94.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Tile spaces are more general than manifolds
ExampleConsider the rotational symmetries of a triangle. Each slice is atile. To build the tile space, we glue together its sides. Theresult is a cone, with a sharp vertex.
DefinitionAny point where the space does no longer look like a manifold,is called a singularity.
.
•
.
.
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![Page 95: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/95.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Singularities come in many shapes and sizes. . .
(curve) self-intersection = node
(surface) fold line = pinch(catastrophe theory) sharp edge = cusp(quantum gravity) black hole = sink(cosmology) Big Bang?
Example
![Page 96: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/96.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Singularities come in many shapes and sizes. . .
(curve) self-intersection = node(surface) fold line = pinch
(catastrophe theory) sharp edge = cusp(quantum gravity) black hole = sink(cosmology) Big Bang?
Example
![Page 97: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/97.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Singularities come in many shapes and sizes. . .
(curve) self-intersection = node(surface) fold line = pinch
(catastrophe theory) sharp edge = cusp
(quantum gravity) black hole = sink(cosmology) Big Bang?
Example
![Page 98: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/98.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Singularities come in many shapes and sizes. . .
(curve) self-intersection = node(surface) fold line = pinch
(catastrophe theory) sharp edge = cusp(quantum gravity) black hole = sink
(cosmology) Big Bang?
Example
![Page 99: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/99.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Singularities come in many shapes and sizes. . .
(curve) self-intersection = node(surface) fold line = pinch
(catastrophe theory) sharp edge = cusp(quantum gravity) black hole = sink(cosmology) Big Bang?
Example
![Page 100: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/100.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Outline
1 Size matters
2 . . . and so does shape
3 The beauty and the beast: symmetry and singularities
4 A new utopia? Ultraworld
![Page 101: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/101.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Frobenius symmetry of virtual worlds
Double product formula (student version)
(x + y)2 = x2 + y2
Theorem (Frobenius (1849–1917))In a finite world of length p, the student’s version of the binomialtheorem does hold true: (x + y)p = xp + yp
CorollaryThe p-th power map is a symmetry of any virtual world of lengthp, called the Frobenius symmetry.
![Page 102: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/102.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Frobenius symmetry of virtual worlds
Double product formula
(x + y)2 = x2 + 2xy + y2
Theorem (Frobenius (1849–1917))In a finite world of length p, the student’s version of the binomialtheorem does hold true: (x + y)p = xp + yp
CorollaryThe p-th power map is a symmetry of any virtual world of lengthp, called the Frobenius symmetry.
![Page 103: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/103.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Frobenius symmetry of virtual worlds
Newton’s (1643–1727) Binomial Formula
(x + y)n = xn +(n1)xn−1y +
(n2)xn−2y2 + · · ·+ yn
Theorem (Frobenius (1849–1917))In a finite world of length p, the student’s version of the binomialtheorem does hold true: (x + y)p = xp + yp
CorollaryThe p-th power map is a symmetry of any virtual world of lengthp, called the Frobenius symmetry.
![Page 104: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/104.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Frobenius symmetry of virtual worlds
Khayyam’s (1048–1131) Binomial Formula
(x + y)n = xn +(n1)xn−1y +
(n2)xn−2y2 + · · ·+ yn
Theorem (Frobenius (1849–1917))In a finite world of length p, the student’s version of the binomialtheorem does hold true: (x + y)p = xp + yp
CorollaryThe p-th power map is a symmetry of any virtual world of lengthp, called the Frobenius symmetry.
![Page 105: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/105.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Frobenius symmetry of virtual worlds
Khayyam’s (1048–1131) Binomial Formula
(x + y)n = xn +(n1)xn−1y +
(n2)xn−2y2 + · · ·+ yn
Theorem (Frobenius (1849–1917))In a finite world of length p, the student’s version of the binomialtheorem does hold true: (x + y)p = xp + yp
CorollaryThe p-th power map is a symmetry of any virtual world of lengthp, called the Frobenius symmetry.
![Page 106: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/106.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Frobenius symmetry of virtual worlds
Khayyam’s (1048–1131) Binomial Formula
(x + y)n = xn +(n1)xn−1y +
(n2)xn−2y2 + · · ·+ yn
Theorem (Frobenius (1849–1917))In a finite world of length p, the student’s version of the binomialtheorem does hold true: (x + y)p = xp + yp
CorollaryThe p-th power map is a symmetry of any virtual world of lengthp, called the Frobenius symmetry.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Ultraworlds
DefinitionAn ultraworld is obtained by averaging infinitely many worlds.
Theorem (Łos ’55)A computation in an ultraworld is true, if it is true in a randomlychosen world.
Proof.We construct the corresponding parallel quantumultra-computer, with each processor working in somerandom world.If, on average, something is true in each world, then ourultra-computer will detect this with probability one.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Ultraworlds
DefinitionAn ultraworld is obtained by averaging infinitely many worlds.
Theorem (Łos ’55)A computation in an ultraworld is true, if it is true in a randomlychosen world.
Proof.We construct the corresponding parallel quantumultra-computer, with each processor working in somerandom world.If, on average, something is true in each world, then ourultra-computer will detect this with probability one.
![Page 109: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/109.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Ultraworlds
DefinitionAn ultraworld is obtained by averaging infinitely many worlds.
Theorem (Łos ’55)A computation in an ultraworld is true, if it is true in a randomlychosen world.
Proof.We construct the corresponding parallel quantumultra-computer, with each processor working in somerandom world.If, on average, something is true in each world, then ourultra-computer will detect this with probability one.
![Page 110: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/110.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Ultraworlds
DefinitionAn ultraworld is obtained by averaging infinitely many worlds.
Theorem (Łos ’55)A computation in an ultraworld is true, if it is true in a randomlychosen world.
Proof.We construct the corresponding parallel quantumultra-computer, with each processor working in somerandom world.If, on average, something is true in each world, then ourultra-computer will detect this with probability one.
![Page 111: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/111.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Ultraworlds
DefinitionAn ultraworld is obtained by averaging infinitely many worlds.
Theorem (Łos ’55)A computation in an ultraworld is true, if it is true in a randomlychosen world.
Proof.We construct the corresponding parallel quantumultra-computer, with each processor working in somerandom world.If, on average, something is true in each world, then ourultra-computer will detect this with probability one.
![Page 112: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/112.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Some ultraworld travelers
Skolem ’38: precursor to ultraworld: the non-standard numbersŁos ’55: ultraworld as a concept from logic
Keisler–Tarski ’64: use ultraworlds of infinity to get even largerinfinities
Robinson ’66: use the ultraworld of the real world to definenon-standard analysis (=foundation for Leibnitz’infinitesimal calculus)
Ax–Kochen ’68: use ultraworlds to study average properties offinite worlds
Schmidt–van den Dries ’84: use ultraworlds to obtaincomputability
S. ’00: use ultraworlds as a gateway between finite andinfinite worlds
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Some ultraworld travelers
Skolem ’38: precursor to ultraworld: the non-standard numbersŁos ’55: ultraworld as a concept from logic
Keisler–Tarski ’64: use ultraworlds of infinity to get even largerinfinities
Robinson ’66: use the ultraworld of the real world to definenon-standard analysis (=foundation for Leibnitz’infinitesimal calculus)
Ax–Kochen ’68: use ultraworlds to study average properties offinite worlds
Schmidt–van den Dries ’84: use ultraworlds to obtaincomputability
S. ’00: use ultraworlds as a gateway between finite andinfinite worlds
![Page 114: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/114.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Lefschetz world
DefinitionLefschetz world is the ultraworld of all finite worlds.
CorollaryLefschetz world has ultra-Frobenius symmetry.
Proof.Finite worlds have Frobenius symmetry (given by taking p-thpowers).
Averaging this out yields ultra-Frobeniussymmetry.
Theorem (S. ’03, Aschenbrenner-S. ’07)Any infinite world embeds into Lefschetz world.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Lefschetz world
DefinitionLefschetz world is the ultraworld of all finite worlds.
CorollaryLefschetz world has ultra-Frobenius symmetry.
Proof.Finite worlds have Frobenius symmetry (given by taking p-thpowers).
Averaging this out yields ultra-Frobeniussymmetry.
Theorem (S. ’03, Aschenbrenner-S. ’07)Any infinite world embeds into Lefschetz world.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Lefschetz world
DefinitionLefschetz world is the ultraworld of all finite worlds.
CorollaryLefschetz world has ultra-Frobenius symmetry.
Proof.Finite worlds have Frobenius symmetry (given by taking p-thpowers).
Averaging this out yields ultra-Frobeniussymmetry.
Theorem (S. ’03, Aschenbrenner-S. ’07)Any infinite world embeds into Lefschetz world.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Lefschetz world
DefinitionLefschetz world is the ultraworld of all finite worlds.
CorollaryLefschetz world has ultra-Frobenius symmetry.
Proof.Finite worlds have Frobenius symmetry (given by taking p-thpowers). Averaging this out yields ultra-Frobeniussymmetry.
Theorem (S. ’03, Aschenbrenner-S. ’07)Any infinite world embeds into Lefschetz world.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Lefschetz world
DefinitionLefschetz world is the ultraworld of all finite worlds.
CorollaryLefschetz world has ultra-Frobenius symmetry.
Proof.Finite worlds have Frobenius symmetry (given by taking p-thpowers). Averaging this out yields ultra-Frobeniussymmetry.
Theorem (S. ’03, Aschenbrenner-S. ’07)Any infinite world embeds into Lefschetz world.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,
redo the above argument with ultra-Frobenius symmetry.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Tile spaces are more general than manifolds
ExampleConsider the rotational symmetries of a triangle. Each slice is atile. To build the tile space, we glue together its sides. Theresult is a cone, with a sharp vertex.
DefinitionAny point where the space does no longer look like a manifold,is called a singularity.
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Proof.This follows from two conflicting properties of Frobeniussymmetry:
1 it contracts subspaces,2 yet preserves cohomology.
This can only happen if cohomology is already zero, which iswhat is meant with nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,
redo the above argument with ultra-Frobenius symmetry.
![Page 122: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/122.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Proof.This follows from two conflicting properties of Frobeniussymmetry:
1 it contracts subspaces,
2 yet preserves cohomology.This can only happen if cohomology is already zero, which iswhat is meant with nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,
redo the above argument with ultra-Frobenius symmetry.
![Page 123: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/123.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Proof.This follows from two conflicting properties of Frobeniussymmetry:
1 it contracts subspaces,2 yet preserves cohomology.
This can only happen if cohomology is already zero, which iswhat is meant with nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,
redo the above argument with ultra-Frobenius symmetry.
![Page 124: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/124.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Proof.This follows from two conflicting properties of Frobeniussymmetry:
1 it contracts subspaces,2 yet preserves cohomology.
This can only happen if cohomology is already zero, which iswhat is meant with nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,
redo the above argument with ultra-Frobenius symmetry.
![Page 125: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/125.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,
redo the above argument with ultra-Frobenius symmetry.
![Page 126: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/126.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,
redo the above argument with ultra-Frobenius symmetry.
![Page 127: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/127.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Rationality of tile spaces
Theorem (Smith ’06)Tile spaces inside finite worlds have nice singularities.
Main Theorem (S. ’08)Any tile space has nice singularities.
Proof.embed tile space in Lefschetz world,redo the above argument with ultra-Frobenius symmetry.
![Page 128: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/128.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Epilogue
CorollaryMathematics is heaven!
Proof.Did you not just pay attention!
!"#$%"&'(("
)*"'+,%&-"
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Size matters . . . and so does shape Symmetry and singularities Ultraworld
Epilogue
CorollaryMathematics is heaven!
Proof.Did you not just pay attention!
!"#$%"&'(("
)*"'+,%&-"
![Page 130: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/130.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Epilogue
CorollaryMathematics is heaven!
Proof.Did you not just pay attention!
!"#$%"&'(("
)*"'+,%&-"
![Page 131: A mathematician’s Divina Commedia - Websupport1websupport1.citytech.cuny.edu/faculty/hschoutens/PDF/SOC2010.pdf · A mathematician’s Divina Commedia his travels through the three](https://reader031.fdocuments.net/reader031/viewer/2022021913/5c69e43109d3f26b7d8bde66/html5/thumbnails/131.jpg)
Size matters . . . and so does shape Symmetry and singularities Ultraworld
Thank you!