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A Pythagorean Excursion: Ancient Geometry for Advanced Students John C. Sparks Wright-Patterson Educational Outreach The Air Force Research Laboratory.

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Presentation on theme: "A Pythagorean Excursion: Ancient Geometry for Advanced Students John C. Sparks Wright-Patterson Educational Outreach The Air Force Research Laboratory."— Presentation transcript:

1 A Pythagorean Excursion: Ancient Geometry for Advanced Students John C. Sparks Wright-Patterson Educational Outreach The Air Force Research Laboratory (AFRL)

2 Thanks to Dr. Harvey Chew, Sinclair Community College Mathematics Department, who provided much of the material herein. Thanks to Dr. Harvey Chew, Sinclair Community College Mathematics Department, who provided much of the material herein. Acknowledgement

3 In houses, fields, and highways straight; In buildings standing tall; In mighty planes that leave the gate; And, micro-systems small. Consider ol’ Pythagorus, A Greek of long ago, And all that he did give to us, Three sides whose squares now show Yes, all because he got it right When angles equal ninety--- One geek (BC), his plane delight-- One world changed aplenty! Poem: “Love Triangle”

4 A Very Ancient Discovery: A 2 +B 2 =C 2 B A C u Known by Babylonians: 2000 B.C. u Known by Chinese: 1000 B.C. u Pythagoras institutionalizes: 520 B.C.

5 The Pythagorean Theorem C B A For a right triangle with legs of lengths A, B, and Hypotenuse of length C, A 2 + B 2 = C 2. Pythagoras (569-500 B.C.) was born on the island of Samos in Greece. He did much traveling throughout Egypt learning mathematics. This famous theorem was known in practice by the Babylonians at least 1400 years before Pythagoras!

6 An Old Proof from China: Circa 1000 B.C. Proof: Equate Square Areas (A+B) 2 = C 2 + 4(1/2)AB A 2 + 2AB + B 2 = C 2 + 2AB :: A 2 + B 2 = C 2 C B A C B A C B A C B A

7 President Garfield’s Proof: Done while still a Congressman Proof: Equate Trapezoidal Areas (1/2)(A+B) 2 = (1/2)C 2 + 2(1/2)AB (A+B) 2 = C 2 + AB A 2 + AB+ B 2 = C 2 +AB :: A 2 + B 2 = C 2 C B A C B A Fact: Today there are over 300 known proofs of the Pythagorean theorem!

8 A2A2 B2B2 C2C2 C 2 =A 2 +B 2 A2A2 B2B2 C2C2 Q.E.D. A Visual Proof of the Pythagorean Theorem

9 Right Triangles: The Essential Starting Point 90 0 Curry’s Paradox Paul Curry was a amateur magician in New York City. In 1953, Paul invented the puzzle shown on the right. I call it “Four Easy Pieces”. Question: where did the little gap go? Curry’s Paradox Paul Curry was a amateur magician in New York City. In 1953, Paul invented the puzzle shown on the right. I call it “Four Easy Pieces”. Question: where did the little gap go?

10 Pythagorean Triangles 5 4 3 Pythagorean triangles are right triangles where the lengths of all three sides are expressible as whole numbers. u Only Pythagorean triangle whose sides are in arithmetic progression u Only triangle of any shape having a perimeter equal to double its area The 3-4-5 triangle

11 A Method for Generating Pythagorean Triangles M 2 + N 2 2MN M 2 - N 2 This method will produce Pythagorean triangles for any pair of whole numbers M and N where M > N. Question: Can you prove that this method works in general?

12 The First Five Pythagorean Triangles--Successive N, M Notice that one leg and hypotenuse are one unit apart. Question: Is this always true when M = N + 1? NMA = 2MNB = M 2 - N 2 C= M 2 +N 2 12435 2312513 3424725 4540941 56601161 NMA = 2MNB = M 2 - N 2 C= M 2 +N 2 12435 2312513 3424725 4540941 56601161

13 Ten Pythagorean Triangles: One Leg Equal to 48 Question: How many Pythagorean Triangles can you find where A = 120? AB C 486480 483660 4890102 482052 48140148 AB C 486480 483660 4890102 482052 48140148 AB C 48189195 48286290 481450 485573 48575577 AB C 48189195 48286290 481450 485573 48575577 Are there any more with A = 48?

14 Pythagorean Triangles Having Equal Areas AB CArea 404258840 247074840 15112113840 10520823310920 12018221810920 5639039210920 Challenge: Can you find another triplet? AB CArea 404258840 247074840 15112113840 10520823310920 12018221810920 5639039210920 Challenge: Can you find another triplet?

15 Pythagorean Triangle Rarities: Equal Perimeters AB CPerimeter (P) 1538689435154157317460 9966086099131701317460 43660133419140381317460 13260151811152389317460 Challenge: 6 other sets of 4 exist where P< 1,000, 000. Can you find them all? AB CPerimeter (P) 1538689435154157317460 9966086099131701317460 43660133419140381317460 13260151811152389317460 Challenge: 6 other sets of 4 exist where P< 1,000, 000. Can you find them all?

16 Pythagorean Triangles: Inscribed Circle Theorem Let ABC be a Pythagorean triangle generated by the two integers M and N as shown above, where M > N. Then the radius of the corresponding inscribed circle is also an integer. M 2 + N 2 2MN M 2 - N 2 A B C D r r r

17 Proof of the Inscribed Circle Theorem M 2 + N 2 2MN M 2 - N 2 A B C D r r r 1) Area ABC = Area ADB + Area BDC + Area CDA 2) (1/2) (M 2 -N 2 ) (2MN)= (1/2)r(M 2 -N 2 ) + (1/2)r(M 2 +N 2 ) + (1/2)r(2MN) 3) (M 2 -N 2 ) (2MN) = r(M 2 -N 2 ) + r(M 2 +N 2 ) + r(2MN) 4) r(M 2 -N 2 ) + r(M 2 +N 2 ) + r(2MN) = (M 2 -N 2 ) (2MN) 5) r(2M 2 + 2MN) = (M 2 -N 2 ) (2MN) 6) r(M 2 + MN) = (M 2 -N 2 ) (MN) 7) r(M)(M+N) = (M+N)(M-N)(MN) Now divide through by M(M+N) 8) :: r = N(M-N), an integer

18 Examples of the Inscribed Circle Theorem Questions: 1) Can the length of the radius be any positive integer 1, 2, 3, 4…? 2) Can two Pythagorean triangles each have an inscribed circle having the same radius? More than two? Questions: 1) Can the length of the radius be any positive integer 1, 2, 3, 4…? 2) Can two Pythagorean triangles each have an inscribed circle having the same radius? More than two? NMA B Cr 124351 23125132 241612204 353016346 NMA B Cr 124351 23125132 241612204 353016346

19 The Triangular Numbers o o oo o oo ooo o oo ooo oooo o oo ooo oooo ooooo o oo ooo oooo ooooo oooooo 136101521 Above is the process for making a partial sequence of triangular numbers. As you can see, triangular numbers are well-named! The full sequence is the infinite sequence 1, 3, 6, 10, 15, 21, 28, 36, 45...

20 The Pythagorean Theorem in Three Dimensions A B C D E For a right-triangular (orthogonal) three-dimensional system: D 2 = A 2 + B 2 + C 2 For a right-triangular (orthogonal) three-dimensional system: D 2 = A 2 + B 2 + C 2 Proof: 1) D 2 = A 2 + E 2 2) But E 2 = B 2 + C 2 3) :: D 2 = A 2 + B 2 + C 2 This result extends to n dimensions by the simple process of mathematical induction. The multi-dimensional Pythagorean Theorem forms the basis of Analysis of Variance (ANOVA), a powerful modern statistical analysis technique formulated by Sir Ronald Fisher in the 1920s.

21 Fermat’s Last Theorem: You Don’t Mess With the Exponent! Hypothesis: Let n be a whole number 2, 3, 4, 5… Then, X n + Y n = Z n has no solution in integers or rational fractions except for the case n = 2, the Pythagorean case. This “Anti-Pythagorean” extension was first proposed by Fermat circa 1660 and finally proved to be true by Andrew Wiles of Princeton in 1993. Hypothesis: Let n be a whole number 2, 3, 4, 5… Then, X n + Y n = Z n has no solution in integers or rational fractions except for the case n = 2, the Pythagorean case. This “Anti-Pythagorean” extension was first proposed by Fermat circa 1660 and finally proved to be true by Andrew Wiles of Princeton in 1993.

22 Two workmen at a construction site are rolling steel beams down a corridor 8 feet wide that opens into a second corridor feet wide. What is the length of the longest beam that can be rolled into the second corridor? Assume that the second corridor is perpendicular to the first corridor and that the beam is of negligible thickness. Steel beam being rolled from the first corridor into the second corridor Answer: 27 feet Fact: This problem started to appear in calculus texts circa 1900. It is famous because of how it thoroughly integrates plane geometry, algebra, and differential calculus. Calculus Meets Pythagoras: The Infamous Girder Problem!

23 Thank You! The End 3 3 + 4 3 + 5 3 = 6 3

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