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<p><a href="http://www.cs.ru.nl/%7Efreek/100/">"Formalizing 100
Theorems" by Freek Wiedijk</a> lists 100 mathematical theorems and the
various systems that have formalized a nontrivial number of them.  This
list is discussed in <a
href="http://www.ams.org/notices/200811/tx081101408p.pdf">"Formal Proof
- Getting Started" (Freek Wiedijk, Notices of the AMS, Volume 55, Number
11, December 2008)</a>.  Rightly or wrongly, this list is used by others
to judge proof systems.  Wiedijk's "getting started" picks as its
primary examples HOL Light and Mizar, which at the time had the largest
number of proofs.  Similarly, <a
href="http://www.cs.sjsu.edu/faculty/beeson/Masters/KamThesis.pdf">"Case
Studies in Proof Checking" by Robert C. Kam</a> says, "Judging by Dr.
Wiedijk's Formalizing 100 Theorems list, which gives an overview of the
headway various proof systems have made in mathematics, Coq and Mizar
are two of the most successful systems in use today (Wiedijk,
2007)".</p>

<p>Currently there are <b>74</b> proofs proven by Metamath from this list of
100.  As of 2020-04-05 this number of proofs is more than
Coq (70), Mizar (69),
ProofPower (43), Lean (29),
PVS (22), nqthm/ACL2 (18), and NuPRL/MetaPRL (8);
it is short of only Isabelle (83) and HOL Light (86).
This is very good, especially considering that there had been no significant
effort until 2014 to prove theorems from this list of 100 using Metamath.
In this page, you can see the
<a href="#done">completed Metamath proofs</a> and the
<a href="#todo">Metamath proofs to be done</a> from this list of
metamath proofs.
</p>

<p>Like all Metamath proofs, all reasoning is done directly in the
proof itself rather than by algorithms embedded in the verification
program.  As a result, the proofs are completely transparent with
nothing hidden from the user, and every step can be followed through a
hyperlink to its corresponding proof or definition.
Therefore, the Metamath Proof Explorer (MPE aka set.mm) database
is the <i>largest</i> database of formally-verified mathematics
that records every step of a proof by directly
referring to only an axiom or previous proof
(many competing databases only record tactics that are
intended to rediscover the proof, instead of recording
the specific proven steps actually used in the proof).
</p>

<p>
The theorems in MPE are routinely verified by 5 different programs
written in 5 different programming languages by more than 5 different people.
These are the
original metamath (a C verifier by Norm Megill),
mmj2 (a Java verifier by Mel O'Cat and Mario Carneiro),
smetamath-rs (a high-speed Rust verifier by Stefan O'Rear),
checkmm (a C++ verifier by Eric Schmidt), and
mmverify (a Python verifier by Raph Levien).
This checking by multiple independent verifiers in different languages
provides very strong justification for believing
that the proofs are correct.
</p>

<p>
What's more, all of
the proofs listed here are current and verified with the current
versions of Metamath tools.
This is not the case with some
other systems, where older proofs have not always been kept synchronized
with the current system and thus have become essentially lost.
</p>

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This is different from some other systems.
For example, Isabelle's proof of the prime number theorem was done in
Isabelle2005, and it was not kept up in the Isabelle AFP (its archive of
formal proofs), so its proof is uncheckable with current tools and
essentially lost.
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<p>
Since the kernel of Metamath is extremely small and rarely changes, the
underlying Metamath language (as implemented by over a dozen
independently-written verifiers) is very stable over time
and can be verified very rapidly.
The entire
content of  <A HREF="index.html#mmprog">set.mm</A>
set theory database can be verified in less than 5 sec
with the <A HREF="index.html#mmprog">metamath program</A> and in 0.7 sec
with a recent version of Stefan O'Rear's <A
HREF="other.html#smm">smm3</A> verifier that utilizes multiple CPU
cores.  As of June 2016, altogether
the theorems listed here ultimately make use of
12151 of the 28366 theorems in set.mm for their full derivation from ZFC
axioms.  (This doesn't mean that 12151 theorems are dedicated to the
theorems on this list.  Most are library-type theorems shared
by many other theorems; for
example, many of the theorems on this list
depend on the complex number construction, which itself
involves 3014 theorems to derive starting from the ZFC axioms.)</p>

<p>
<a
href="https://docs.google.com/spreadsheets/d/1jcLOp_jF4sPrVPdPedL_ZWebXp8oYEQOSmbWb168YHE"
>Some graphs showing Metamath 100 progress are available on another page</a>
(click the Authors tab for a pie chart).
You can also see a
<a href="https://www.youtube.com/watch?v=LVGSeDjWzUo">Gource Visualization of
the growth of the Metamath Proof Explorer (MPE / set.mm) database of proofs</a>.
</p>

<p id="done">Here is the list of the <a
href="http://www.metamath.org/">Metamath</a> proofs that are available
from this list of 100, along with credit to the individual(s) who
created the Metamath formalization.
Almost all of these proofs are from the <a
href="http://us.metamath.org/mpeuni/mmset.html">Metamath Proof Explorer</a>,
aka database set.mm, which is based on classical logic.
However, there are some proofs available in the <a
href="http://us.metamath.org/ileuni/mmil.html">Intuitionistic Logic Explorer</a>,
aka database iset.mm, which uses intuitionistic logic instead.
Please email missing entries to <a
href="email.html">Norm Megill</a>!

The intuitionistic logic explorer (iset.mm) database also includes <a
href="http://us.metamath.org/ileuni/finds.html">finds</a> and <a
href="http://us.metamath.org/ileuni/findes.html">findes</a>.

<p><a name="developers"></a><font size=-1>Note for potential
contributors:  The development tools most people use, in addition to a
good text editor, are <a href="index.html#mmj2">mmj2</a> (which has an
introductory video) and the <a href="index.html#mmprog">metamath
program</A> (which has a tutorial in Chapter 2 of the <A
HREF="index.html#book"><i>Metamath</i></a> book).  Most contributors
keep their work in progress in private sections of set.mm called
"mathboxes" to prevent interfering with others' work.  Mathboxes can be
released via a <a
href="https://github.com/metamath/set.mm/tree/develop">GitHub</a> pull
request and will later be moved to the main part of set.mm by its
maintainers as appropriate.  Alternately, mathboxes can be emailed to
Norm.  Requests for help on the <a
href="http://groups.google.com/group/metamath">Metamath Google Group</a>
can help things go smoother.  See the <a
href="mpeuni/mmrecent.html">Most Recent Proofs</a> page for recent
announcements.</font></p>

<ul>

<!-- 5th added to list -->
<li><a name="1">1</a>.  The Irrationality of the Square Root of 2 (<a
href="mpeuni/sqrt2irr.html">sqrt2irr</a>, by Norman Megill, 2001-08-20)</li>

<!-- 37th added to list -->
<li><a name="2">2</a>. The Fundamental Theorem of Algebra (<a
href="mpeuni/fta.html">fta</a>,
by Mario Carneiro, 2014-09-15)</li>

<!-- 19th added to list -->
<li><a name="3">3</a>.  The Denumerability of the Rational Numbers (<a
href="mpeuni/qnnen.html">qnnen</a>, revised by Mario Carneiro,
2013-03-03)</li>

<!-- 15th added to list -->
<li><a name="4">4</a>.  Pythagorean Theorem (<a
href="mpeuni/pythi.html">pythi</a>, by Norman Megill, 2008-04-17)</li>

<!-- 58th added to list -->
<li><a name="5">5</a>.  The Prime Number Theorem (<a
href="mpeuni/pnt.html">pnt</a>, by Mario Carneiro, 2016-06-01) - also see
<a href="mpeuni/pnt2.html">pnt2</a>, <a href="mpeuni/pnt3.html">pnt3</a></li>

<!-- 53rd added to list -->
<li><a name="7">7</a>.  Law of Quadratic Reciprocity (<a
href="mpeuni/lgsquad.html">lgsquad</a>, by Mario Carneiro, 2015-06-19)</li>

<!-- 66th added to list -->
<li><a name="9">9</a>.  The Area of a Circle (<a
href="http://us.metamath.org/mpeuni/areacirc.html">areacirc</a>,
by Brendan Leahy, 2017-08-31)</li>

<!-- 21st added to list -->
<li><a name="10">10</a>.  Euler's Generalization of Fermat's Little Theorem (<a
href="mpeuni/eulerth.html">eulerth</a>, by Mario Carneiro,
2014-02-28)</li>

<!-- 8th added to list -->
<li><a name="11">11</a>.  The Infinitude of Primes (<a
href="mpeuni/infpn2.html">infpn2</a>, by Norman Megill, 2005-05-05)</li>

<!-- 33rd added to list -->
<li><a name="14">14</a>.  Euler's Summation of 1 + (1/2)^2 + (1/3)^2 + .... (<a
href="mpeuni/basel.html">basel</a>, by Mario Carneiro,
2014-07-30)</li>

<!-- 35th added to list -->
<li><a name="15">15</a>. The Fundamental Theorem of Integral
Calculus (<a
href="mpeuni/ftc1.html">ftc1</a> and <a
href="mpeuni/ftc2.html">ftc2</a>,
by Mario Carneiro, 2014-09-03)</li>

<!-- 11th added to list -->
<li><a name="17">17</a>.  De Moivre's Theorem (<a
href="mpeuni/demoivreALT.html">demoivreALT</a>, by Steve Rodriguez, 2006-11-10).
See also the later proof <a
href="mpeuni/demoivre.html">demoivre</a> (by Norman Megill, 2007-07-24),
which is shorter and more general but uses the exponential function.</li>

<!-- 40th added to list -->
<li><a name="18">18</a>. Liouville's Theorem and the Construction
of Transcendental Numbers (<a
href="mpeuni/aaliou.html">aaliou</a>,
by Stefan O'Rear, 2014-11-22)</li>

<!-- 31st added to list -->
<li><a name="19">19</a>.  Four Squares Theorem (<a
href="mpeuni/4sq.html">4sq</a>,
by Mario Carneiro, 2014-07-16)</li>

<!-- 54th added to list -->
<li><a name="20">20</a>.  All Primes (1 mod 4) Equal the Sum of Two Squares (<a
href="mpeuni/2sq.html">2sq</a>, by Mario Carneiro, 2015-06-20)</li>

<!-- 7th added to list -->
<li><a name="22">22</a>.  The Non-Denumerability of the Continuum (<a
href="mpeuni/ruc.html">ruc</a>, by Norman Megill, 2004-08-13)</li>

<!-- 23rd added to list -->
<li><a name="23">23</a>.  Formula for Pythagorean Triples (<a
href="mpeuni/pythagtrip.html">pythagtrip</a>, by Scott Fenton, 2014-04-19)</li>

<!-- 3rd added to list -->
<li><a name="25">25</a>.  Schroeder-Bernstein Theorem (<a
href="mpeuni/sbth.html">sbth</a>, by Norman Megill, 1998-06-08 revised
2007-01-20)</li>

<!-- 45th added to list -->
<li><a name="26">26</a>.  Leibniz' Series for Pi (<a
href="mpeuni/leibpi.html">leibpi</a>,
by Mario Carneiro, 2015-04-16)</li>

<!-- 38th added to list -->
<li><a name="27">27</a>.  Sum of the Angles of a Triangle (<a
href="mpeuni/ang180.html">ang180</a>,
by Mario Carneiro, 2014-09-24)</li>

<!-- 63rd added to list -->
<li><a name="30">30</a>.  The Ballot Problem (aka Bertrand's ballot problem)
(<a href="mpeuni/ballotth.html">ballotth</a>,
by Thierry Arnoux, contributed 2017-05-07)</li>

<!-- 48th added to list -->
<li><a name="31">31</a>.  Ramsey's Theorem (<a
href="mpeuni/ramsey.html">ramsey</a>,
by Mario Carneiro, 2015-04-23)</li>

<!-- 27th added to list -->
<li><a name="34">34</a>.  Divergence of the Harmonic Series (<a
href="mpeuni/harmonic.html">harmonic</a>, by Mario Carneiro, 2014-07-11)</li>

<!-- 60th added to list -->
<li><a name="35">35</a>.  Taylor's Theorem (<a
href="mpeuni/taylth.html">taylth</a>, by Mario Carneiro, 2017-01-01)</li>

<!-- 49th added to list -->
<li><a name="37">37</a>.  The Solution of a Cubic (<a
href="mpeuni/cubic.html">cubic</a>,
by Mario Carneiro, 2015-04-26)</li>

<!-- 55th added to list -->
<li><a name="38">38</a>.  Arithmetic Mean/Geometric Mean (<a
href="mpeuni/amgm.html">amgm</a>,
by Mario Carneiro, 2015-06-21)</li>

<!-- 39th added to list -->
<li><a name="39">39</a>. Solutions to Pell's Equation (<a
href="mpeuni/rmxycomplete.html">rmxycomplete</a>,
by Stefan O'Rear, 2014-11-22)</li>

<!-- 24th added to list -->
<li><a name="42">42</a>.  Sum of the Reciprocals of the Triangular Numbers (<a
href="mpeuni/trirecip.html">trirecip</a>, by Scott Fenton,
2014-05-02)</li>

<!-- 9th added to list -->
<li><a name="44">44</a>.  The Binomial Theorem (<a
href="mpeuni/binom.html">binom</a>, Norman Megill, 2005-12-07)</li>

<!-- 68th added to list -->
<li><a name="45">45</a>.  The Partition Theorem (by Euler) (<a
href="mpeuni/eulerpart.html">eulerpart</a>, Thierry Arnoux, 2018-08-30)</li>

<!-- 50th added to list -->
<li><a name="46">46</a>.  The Solution of the General Quartic Equation (<a
href="mpeuni/quart.html">quart</a>,
by Mario Carneiro, 2015-05-06)</li>

<!-- 56th added to list -->
<li><a name="48">48</a>.  Dirichlet's Theorem (<a
href="mpeuni/dirith.html">dirith</a>,
by Mario Carneiro, 2016-05-12)</li>

<!-- 72nd added to list -->
<li><a name="49">49</a>.  The Cayley-Hamilton Theorem (<a
href="mpeuni/cayleyhamilton.html">cayleyhamilton</a>,
by Alexander van der Vekens, 2019-11-25)</li>

<!-- 42th added to list -->
<li><a name="51">51</a>.  Wilson's Theorem (<a
href="mpeuni/wilth.html">wilth</a>,
by Mario Carneiro, 2015-01-28)</li>

<!-- 6th added to list -->
<li><a name="52">52</a>.  The Number of Subsets of a Set (<a
href="mpeuni/pw2en.html">pw2en</a>, by Norman Megill, 2004-01-29)</li>

<!-- 46th added to list -->
<li><a name="54">54</a>. The Konigsberg Bridge Problem (<a
href="mpeuni/konigsberg.html">konigsberg</a>,
by Mario Carneiro, 2015-04-16)</li>

<!-- 62nd added to list -->
<li><a name="55">55</a>.  Product of Segments of Chords (<a
href="mpeuni/chordthm.html">chordthm</a>
by David Moews, 2017-02-28)</li>

<!-- 71st added to list -->
<li><a name="57">57</a>.  Heron's Formula (<a
href="mpeuni/heron.html">heron</a>
by Mario Carneiro based on work by Jon Pennant and Thierry Arnoux,
2019-03-10)</li>

<!-- 29th added to list -->
<li><a name="58">58</a>.  Formula for the Number of Combinations (<a
href="mpeuni/hashbc.html">hashbc</a>, by Mario Carneiro, 2014-07-13)</li>

<!-- 20th added to list -->
<li><a name="60">60</a>.  Bezout's Theorem (<a
href="mpeuni/bezout.html">bezout</a>, by Mario Carneiro, 2014-02-22)</li>

<!-- 67th added to list -->
<li><a name="61">61</a>.  Theorem of Ceva (<a
href="mpeuni/cevath.html">cevath</a>, by
Saveliy Skresanov, 2017-09-24)</li>

<!-- 1st added to list -->
<li><a name="63">63</a>.  Cantor's Theorem (<a
href="mpeuni/canth2.html">canth2</a>, by Norman Megill, 1994-08-07)</li>

<!-- 59th added to list -->
<li><a name="64">64</a>.  L'H&ocirc;pital's Rule (<a
href="mpeuni/lhop.html">lhop</a>, by Mario Carneiro, 2016-12-30)</li>

<!-- 61st added to list -->
<li><a name="65">65</a>.  Isosceles Triangle Theorem (<a
href="http://us.metamath.org/mpeuni/isosctr.html">isosctr</a>,
by Saveliy Skresanov, 2017-01-01)</li>

<!-- 10th added to list -->
<li><a name="66">66</a>.  Sum of a Geometric Series (<a
href="mpeuni/geoser.html">geoser</a>, by Norman Megill, 2006-05-09)</li>

<!-- 74th added to list -->
<li><a name="67">67</a>.  <i>e</i> is Transcendental (<a
href="mpeuni/etransc.html">etransc</a>, by Glauco Siliprandi, 2020-04-05)</li>

<!-- 12th added to list -->
<!-- Note: arisum was originally named fnsmnt -->
<li><a name="68">68</a>.  Sum of an arithmetic series (<a
href="mpeuni/arisum.html">arisum</a>, by Frédéric Liné, 2006-11-16) - arisum
is not fully general, but it would be straightforward to enhance.</li>

<!-- 16th added to list -->
<li><a name="69">69</a>.  Greatest Common Divisor Algorithm (<a
href="mpeuni/eucalg.html">eucalg</a>, by Paul Chapman, 2011-03-31)</li>

<!-- 57th added to list -->
<li><a name="70">70</a>.  The Perfect Number Theorem (<a
href="mpeuni/perfect.html">perfect</a>, by Mario Carneiro, 2016-05-17)</li>

<!-- 28th added to list -->
<li><a name="71">71</a>.  Order of a Subgroup (<a
href="mpeuni/lagsubg.html">lagsubg</a>, by Mario Carneiro, 2014-07-11) -
also see <a href="mpeuni/lagsubg2.html">lagsubg2</a></li>

<!-- 41st added to list -->
<li><a name="72">72</a>.  Sylow's Theorem (<a
href="mpeuni/sylow1.html">sylow1</a> and <a
href="mpeuni/sylow2.html">sylow2</a> and <a
href="mpeuni/sylow2b.html">sylow2b</a> and <a
href="mpeuni/sylow3.html">sylow3</a>,
by Mario Carneiro, 2015-01-19)</li>

<!-- 43rd added to list -->
<li><a name="73">73</a>.  Ascending or Descending Sequences (<a
href="mpeuni/erdsze.html">erdsze</a> and <a
href="mpeuni/erdsze2.html">erdsze2</a>,
by Mario Carneiro, 2015-01-28)</li>

<!-- 2nd added to list -->
<li><a name="74">74</a>.  The Principle of Mathematical Induction (<a
href="mpeuni/finds.html">finds</a>, by Norman Megill, 1995-04-14).
There are many versions of Mathematical Induction in set.mm. Theorem <a
href="mpeuni/findes.html">findes</a> (by Raph Levien, 9-Jul-2003)
is a compact and more traditional-looking version with explicit substitution.
Another alternative is <a
href="mpeuni/nnind.html">nnind</a> (by Norman Megill, 10-Jan-1997),
which uses natural numbers instead of ordinal numbers and might be
less obscure for non-mathematicians.
The intuitionistic logic explorer (iset.mm) database also includes <a
href="http://us.metamath.org/ileuni/finds.html">finds</a> and <a
href="http://us.metamath.org/ileuni/findes.html">findes</a>.
</li>

<!-- 36th added to list -->
<li><a name="75">75</a>. The Mean Value Theorem (<a
href="mpeuni/mvth.html">mvth</a>,
by Mario Carneiro, 2014-09-14)</li>

<!-- 73rd added to list -->
<li><a name="76">76</a>. Fourier Series (<a
href="mpeuni/fourier.html">fourier</a>,
by Glauco Siliprandi, 2019-12-11)</li>

<!-- 25th added to list -->
<li><a name="77">77</a>.  Sum of kth powers (<a
href="mpeuni/fsumkthpow.html">fsumkthpow</a>, by Scott Fenton, 2014-05-16)</li>

<!-- 13th added to list -->
<li><a name="78">78</a>.  The Cauchy-Schwarz Inequality (<a
href="mpeuni/sii.html">sii</a>, by Norman Megill, 2008-01-12) - note that this
is also called "Schwarz" by some authors and "Bunjakovaskij-Cauchy-Schwarz"
by others.</li>

<!-- 14th added to list -->
<li><a name="79">79</a>.  The Intermediate Value Theorem (<a
href="mpeuni/ivth.html">ivth</a>, by Paul Chapman, 2008-01-22)</li>

<!-- 18th added to list -->
<li><a name="80">80</a>.  Fundamental Theorem of Arithmetic (<a
href="mpeuni/1arith2.html">1arith2</a>, by Paul Chapman, 2012-11-17)</li>

<!-- 34th added to list -->
<li><a name="81">81</a>.  Erd&#337;s's proof of the divergence
of the inverse prime series (<a
href="mpeuni/prmrec.html">prmrec</a>,
by Mario Carneiro, 2014-08-10)</li>

<!-- 69th added to list -->
<li><a name="83">83</a>.  The Friendship Theorem (<a
href="mpeuni/friendship.html">friendship</a>,
by Alexander van der Vekens, 2018-10-09)</li>

<!-- 30th added to list -->
<li><a name="85">85</a>.  Divisibility by 3 Rule (<a
href="mpeuni/3dvds.html">3dvds</a>, by Mario Carneiro, 2014-07-14)</li>

<!-- 26th added to list -->
<li><a name="86">86</a>.  Lebesgue Measure and Integration (<a
href="mpeuni/itgcl.html">itgcl</a>, by Mario Carneiro, 2014-06-29)</li>

<!-- 17th added to list -->
<li><a name="87">87</a>.  Desargues's Theorem (<a
href="mpeuni/dath.html">dath</a>, by Norman Megill, 2012-08-20)</li>

<!-- 44th added to list -->
<li><a name="88">88</a>. Derangements Formula (<a
href="mpeuni/derangfmla.html">derangfmla</a> and <a
href="mpeuni/subfaclim.html">subfaclim</a>,
by Mario Carneiro, 2015-01-28)</li>

<!-- 32nd added to list -->
<li><a name="89">89</a>.  The Factor and Remainder Theorems (<a
href="mpeuni/facth.html">facth</a> and <a
href="mpeuni/plyrem.html">plyrem</a>, by Mario
Carneiro, 2014-07-26)</li>

<!-- 64th added to list -->
<li><a name="90">90</a>.  Stirling's Formula (<a
href="mpeuni/stirling.html">stirling</a> by
Glauco Siliprandi, 2017-06-29)</li>

<!-- 4th added to list -->
<li><a name="91">91</a>.  The Triangle Inequality (<a
href="mpeuni/abstrii.html">abstrii</a>, by Norman Megill, 1999-10-02)</li>

<!-- 47th added to list -->
<li><a name="93">93</a>.  The Birthday Problem (<a
href="mpeuni/birthday.html">birthday</a>, by Mario Carneiro, 2015-04-17)</li>

<!-- 52nd added to list -->
<li><a name="94">94</a>.  The Law of Cosines (<a
href="mpeuni/lawcos.html">lawcos</a>, by David A. Wheeler, 2015-06-12)</li>

<!-- 51st added to list -->
<li><a name="95">95</a>.  Ptolemy's Theorem (<a
href="mpeuni/ptolemy.html">ptolemy</a>, by David A. Wheeler, 2015-05-31)</li>

<!-- 65th added to list -->
<li><a name="96">96</a>.  Principle of Inclusion/Exclusion (<a
href="mpeuni/incexc.html">incexc</a>, by Mario Carneiro, 2017-08-07)</li>

<!-- 70th added to list -->
<li><a name="97">97</a>.  Cramer's Rule (<a
href="mpeuni/cramer.html">cramer</a>,
by Alexander van der Vekens, 2019-02-21,
which built on the key work on determinants by Stefan O'Rear)</li>

<!-- 22nd added to list -->
<li><a name="98">98</a>.  Bertrand's Postulate (<a
href="mpeuni/bpos.html">bpos</a>, by Mario Carneiro, 2014-03-15)</li>

</ul>


<p><a name="sup"></a>The page <a
href="http://www.cs.ru.nl/%7Efreek/100/">"Formalizing 100 Theorems"</a>
also contains a supplementary list of "obvious omissions" from the 100.
Of those, the following have been formalized:</p>

<ul>

<li><a name="lbsex"></a>Every vector space is free (<a href="mpeuni/lbsex.html">lbsex</a>,
by Mario Carneiro, 2014-06-25)</li>

<li><a name="heibor"></a>Heine-Borel Theorem (<a href="mpeuni/heibor.html">heibor</a>,
by Jeff Madsen, 2009-09-02) - also see <a href="mpeuni/cnheibor.html">cnheibor</a></li>

<li><a name="hbt"></a>Hilbert Basis Theorem (<a href="mpeuni/hbt.html">hbt</a>,
by Stefan O'Rear, 2015-04-04)</li>

<li><a name="stowei"></a>Stone-Weierstrass Theorem (<a
href="mpeuni/stowei.html">stowei</a>, by Glauco Siliprandi,
2017-04-20)</li>

</ul>



<p id="todo">These are all the theorems from the list of 100 that have <b>not</b> been formalized in Metamath. Please move these to the above list!</p>

<ul>
<li><a name="6">6</a>.  G&ouml;del's Incompleteness Theorem</li>
<li><a name="8">8</a>.  The Impossibility of Trisecting the Angle and Doubling the Cube</li>
<li><a name="12">12</a>.  The Independence of the Parallel Postulate</li>
<li><a name="13">13</a>.  Polyhedron Formula</li>
<li><a name="16">16</a>.  Insolvability of General Higher Degree Equations</li>
<li><a name="21">21</a>.  Green's Theorem</li>
<li><a name="24">24</a>.  The Undecidability of the Continuum Hypothesis</li>
<li><a name="28">28</a>.  Pascal's Hexagon Theorem</li>
<li><a name="29">29</a>.  Feuerbach's Theorem</li>
<li><a name="32">32</a>.  The Four Color Problem</li>
<li><a name="33">33</a>.  Fermat's Last Theorem</li>
<li><a name="36">36</a>.  Brouwer Fixed Point Theorem</li>
<li><a name="40">40</a>.  Minkowski's Fundamental Theorem</li>
<li><a name="41">41</a>.  Puiseux's Theorem</li>
<li><a name="43">43</a>.  The Isoperimetric Theorem</li>
<li><a name="47">47</a>.  The Central Limit Theorem</li>
<li><a name="50">50</a>.  The Number of Platonic Solids</li>
<li><a name="53">53</a>.  <i>&pi;</i> is Transcendental</li>
<li><a name="56">56</a>.  The Hermite-Lindemann Transcendence Theorem</li>
<li><a name="59">59</a>.  The Laws of Large Numbers</li>
<li><a name="62">62</a>.  Fair Games Theorem</li>
<li><a name="82">82</a>.  Dissection of Cubes (J.E. Littlewood's "elegant" proof)</li>
<li><a name="84">84</a>.  Morley's Theorem</li>
<li><a name="92">92</a>.  Pick's Theorem</li>
<li><a name="99">99</a>.  Buffon Needle Problem</li>
<li><a name="100">100</a>.  Descartes Rule of Signs</li>
</ul>

<p>You can see other proofs done with <a
href="http://us.metamath.org/">Metamath</a> and for traditional
mathematics on the <a
href="mpeuni/mmset.html">Metamath Proof Explorer
Home Page</a>.  Note that there are pages similar to this one for other
tools, such as these pages on <a
href="http://www.cs.ru.nl/%7Efreek/100/hol.html">HOL</a> and <a
href="http://www.cs.ru.nl/%7Efreek/100/mizar.html">Mizar</a>.</p>

<p>This metamath list was originally developed by <a
href="http://www.dwheeler.com/">David A. Wheeler</a> and Norman Megill.
If you add new theorems to the list, please tell Freek Wiedijk (freek at
cs dot ru dot nl)</p>

<p>This page is <a
href="https://creativecommons.org/choose/zero/"> dedicated to the public
domain through the Creative Commons license CC0</a>, to maximize the
availability of this page's information.</p>



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