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maths101.co.za/how-to-calculate-the-pythagoras-theorem

Pythagoras might seem like an odd word to some. Do not let the letters confuse you, it’s a simple theorem, easy to understand! This is a theory that was attributed to a man named Pythagoras and he had a theory that: The square root of the hypotenuse of a right-angled triangle is directly equal to the area of the sum on the adjacent sides ...

byjus.com/maths/pythagoras-theorem

Applications of Pythagoras Theorem. To know if the triangle is a right-angled triangle or not. In a right-angled triangle, we can calculate the length of any side if the other two sides are given. To find the diagonal of a square. Useful For. Pythagoras theorem is useful to find the sides of a right-angled triangle.

www.mathepower.com/en/pythagoras.php

Pythagorean theorem How to prove the Pythagorean theorem? One possibility is shown by our flash animation: Mathepower is a free Pythagoras calculator. E.g. you can compute by using the formula a²+b²=c² or other formulas.

math.icalculator.info/pythagoras-calculator.html

The Pythagoras calculator is used to calculate geometrical expression based on the Pythagoras theorem. It was given by Pythagoras of Samos, an ancient Ionian Greek philosopher who also founded Pythagoreanism. The wise philosopher was an ardent follower of geometry and gave us many theorems, the most notable being the Pythagorean theorem, or ...

www.calculatorology.com/pythagorean-theorem-calculator

Pythagorean Theorem Calculator It is also called the Pythagoras’s theorem calculator. It is used to calculate the fundamental relation among the three sides of a right angled triangle in the Euclidean geometry. According to the Pythagorean Theorem, the square of the hypotenuse is equivalent to the sum of the squares of base and height of the ...

www.mathsisfun.com/geometry/pythagoras-3d.html

Pythagoras tells us that c = √(x 2 + y 2) Now we make another triangle with its base along the "√(x 2 + y 2)" side of the previous triangle, and going up to the far corner: We can use Pythagoras again, but this time the two sides are √(x 2 + y 2) and z, and we get this formula: And the final result is:

betterexplained.com/articles/measure-any-distance-with-the-pythagorean-theorem

We’ve underestimated the Pythagorean theorem all along. It’s not about triangles; it can apply to any shape.It’s not about a, b and c; it applies to any formula with a squared term.. It’s not about distance in the sense of walking diagonally across a room. It’s about any distance, like the “distance” between our movie preferences or colors.