Actually, the sheer volume of distinct known proofs of this theorem is staggering. See [Pythagorean Theorem Proofs] for just a sampling. |

The PythagoreanTheorem is attributed to the Greek philosopher and mathematician Pythagoras who lived in the 6th century B.C. The theorem states a relationship between the lengths of the sides of a right triangle. It says:

The sum of the squares of the length the sides of a right triangle is equal to the square of the length of the hypotenuse.

Visually, the theorem can be illustrated as follows:

Given a right triangle, with sides a and b and hypotenuse c, (Figure 1)

/ l

/ l

c/ l

/ l

/ lb

/ l

/________________ l

a

Figure 1

the hypotenuse is the side opposite the right (90 degree) angle in a right triangle.

Then, **c**^**2** = **a**^**2** + **b**^**2**, or **c** = sqrt(**a**^**2** + **b**^**2**).

Certain sets of 3 integers are useful to remember as being Pythagorean triples, that is, they are possible lengths of the sides of a right triangle. For example:

abc

3 4 5

9 12 15

The PythagoreanTheorem is an important tool in the study of TrigonometricFunctions.

Poser: (3,4,5) is a pythagorean triplet since 3^2 + 4^2 = 5^2. Which positive integers are not part of a pythagorean triplet?

Proof: Draw right triangle with sides a,b,and c as above. Turn an identical triangle 180 degrees and stick its c side to the original triangle's to form a rectangle of sides a and b. Draw an identical rectangle perpendicular to the first with only a corner touching. Draw squares of side a and b to connect the two rectangles into one large square of side (a+b). From this diagram, the area of the large square is
**(a+b)**^**2** = **a**^**2** + **b**^**2** + 4(.5ab) by the formulas for the areas of squares and triangles.

Now form a square from four of the triangles by placing the a side of one triangle in line with the b side of another, so that all four sides of the figure are (a+b). Note that within the large square is a square of side c. From this diagram, the area of the large square is **(a+b)**^**2** = 4(.5ab) + **c**^**2**.

Since **(a+b)**^**2**=itself, **a**^**2** + **b**^**2** + 4(.5ab) = 4(.5ab) + **c**^**2**.

Therefore, **a**^**2** + **b**^**2** = **c**^**2**.

I think a visual of the triangles involved in this proof would be very helpful- even if they are really crude like mine.

Actually, the sheer volume of distinct known proofs of this theorem is staggering. See [Pythagorean Theorem Proofs] for just a sampling.