Trigonometry/For Enthusiasts/Pythagorean Triples

A Pythagorean triple has three positive integers a, b, and c, such that Template:Nowrap In other words, a Pythagorean triple represents the lengths of the sides of a right triangle where all three sides have integer lengths.^[1] Evidence from megalithic monuments on the Northern Europe shows that such triples were known before the discovery of writing. Such a triple is commonly written Template:Nowrap

The integers

${\displaystyle a=m^2-n^2,b=2mn,c=m^2+n^2}$

always form a Pythagorean triple, that is

${\displaystyle {\displaystyle a^2+b^2=c^2}}$

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• (easy) Show that the formula is true whatever integer value we put for m and n.

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• (hard) How would someone find such a formula for generating Pythagorean Triples in the first place?
  • Don't worry if you don't come up with an answer to this. Just investigating the question will help you practice with algebra.

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Some well-known examples are Template:Nowrap and Template:Nowrap

A primitive Pythagorean triple is one in which a, b and c are coprime (the greatest common divisor of a, b and c is 1).

The following is a list of primitive Pythagorean triples with values less than 100: 9:(3, 4, 5), (5, 12, 13), (7, 24, 25), (8, 15, 17), (9, 40, 41), (11, 60, 61), (12, 35, 37), (13, 84, 85), (16, 63, 65), (20, 21, 29), (28, 45, 53), (33, 56, 65), (36, 77, 85), (39, 80, 89), (48, 55, 73), (65, 72, 97)

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• Does the formula for generating Pythagorean Triples generate all the triples shown?

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• What is Fermat's Last Theorem?
  • What goes wrong if you try to use and adapt the formula for Pythagorean Triples for it?

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