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Special Pythagorean Triple

A Pythagorean Triple is a set of three natural numbers, a < b < c , for which a2 + b2 = c2

For example 32 + 42 = 9 + 16 = 25 = 52

There exists a Pythagorean triple for which a + b + c = 1000, can you find it?

(inspired by Project Euler)

Resources

Download Files

Definitions File

theory Defs
imports Main
begin

definition "pythagoreantriple a b c \<longleftrightarrow> a<b \<and> b<c \<and> a*a + b*b = c*c"

end

Template File

theory Submission
imports Defs
begin


lemma GOAL: "\<exists>a b c :: nat. pythagoreantriple a b c \<and> a + b + c = 1000" 
  sorry


end

Check File

theory Check
imports Submission
begin


lemma "\<exists>a b c :: nat. pythagoreantriple a b c \<and> a + b + c = 1000" 
  by(rule Submission.GOAL)


end
Download Files

Definitions File

theory Defs
imports Main
begin

definition "pythagoreantriple a b c \<longleftrightarrow> a<b \<and> b<c \<and> a*a + b*b = c*c"

end

Template File

theory Submission
imports Defs
begin


lemma GOAL: "\<exists>a b c :: nat. pythagoreantriple a b c \<and> a + b + c = 1000" 
  sorry


end

Check File

theory Check
imports Submission
begin


lemma "\<exists>a b c :: nat. pythagoreantriple a b c \<and> a + b + c = 1000" 
  by(rule Submission.GOAL)


end
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Definitions File

Require Export NArith Lia.
Open Scope N.

Definition pythagorean_triple (a b c: N) :=
  a < b /\ b < c /\ a*a + b*b = c*c.

Template File

Require Import Defs.

Theorem goal : exists a b c, pythagorean_triple a b c /\ a + b + c = 1000.
Proof.
  (* todo *)
Admitted.
Download Files

Definitions File

-- Lean version: 3.4.2
-- Mathlib version: 2019-07-31

def pythagorean_triple (a b c : ℕ) := a > 0 ∧ b > 0 ∧ a * a + b * b = c * c

Template File

import .defs

theorem pythagorean_sum_one_thousand :
  ∃ (a b c : ℕ), pythagorean_triple a b c ∧ a + b + c = 1000 :=
sorry

Check File

import .submission

theorem you_did_it :
  ∃ (a b c : ℕ), pythagorean_triple a b c ∧ a + b + c = 1000 :=
pythagorean_sum_one_thousand
Download Files

Definitions File

(in-package "ACL2")

(defun pythagoreantriple (a b c)
  (and (natp a) (natp b) (natp c)
       (< a b)
       (< b c)
       (equal (+ (* a a) (* b b))
              (* c c))))

Template File

(in-package "ACL2")

(include-book "Defs")

; Consider writing a program, find-pyth, to compute a suitable Pythagorean
; triple, then define a constant containing that triple, and finally give the
; lemma below a suitable :use hint based on that constant.

; (defconst *pyth-answer*
;   (find-pyth 1000))

(defun-sk lemma-formalization ()
  (exists (a b c) (and (pythagoreantriple a b c)
                       (equal (+ a b c) 1000))))

(defthm lemma
  (lemma-formalization))

Check File

; The four lines just below are boilerplate, that is, the same for every
; problem.

(in-package "ACL2")
(include-book "Submission")
(set-enforce-redundancy t)
(include-book "Defs")

; The events below represent the theorem to be proved, and are copied from
; template.lisp.

(defun-sk lemma-formalization ()
  (exists (a b c) (and (pythagoreantriple a b c)
                       (equal (+ a b c) 1000))))

(defthm lemma
  (lemma-formalization))
Download Files

Definitions File

theory Defs
imports Main
begin

definition "pythagoreantriple a b c \<longleftrightarrow> a<b \<and> b<c \<and> a*a + b*b = c*c"

end

Template File

theory Submission
imports Defs
begin


lemma GOAL: "\<exists>a b c :: nat. pythagoreantriple a b c \<and> a + b + c = 1000" 
  sorry


end

Check File

theory Check
imports Submission
begin


lemma "\<exists>a b c :: nat. pythagoreantriple a b c \<and> a + b + c = 1000" 
  by(rule Submission.GOAL)


end

Terms and Conditions