A2 + B2 = C2
If C=8, then A2 + B2 = 64
Pythagoras' theorem in finding the lengths of the sides of a right angled triangle.
The Theorem of Pythagoras.
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'A' squared, plus 'B' squared, must equal 'C' squared, but only if the 'C' side is the hypotenuse (long side). A right (or left) triangle MUST have ONE 90-degree angle.
If its a 300-600-right angle triangle then the third angle must be 90 degrees. Then its base squared plus its height squared equals its hypotenuse squared usually written in the form of: a2+b2 = c2
That it is a right triangle with the longest side c facing the right angle.
Pythagoras' theorem in finding the lengths of the sides of a right angled triangle.
The Theorem of Pythagoras.
a right triangle
Angle A + Angle B + Angle C = 180 degrees. If one angle equals 90 degrees then it is a right triangle and the lengths of the sides are in a ratio such that A squared plus B squared equals C squared (Pythagorean Theorem)
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If a remains the right triangle, No
Pythagoras' theorem for a right angle triangle.
There's no general rule or pattern to that. The rule/pattern of the side lengths on a right triangle is: (the square of the length of the shortest side) plus (the square of the length of the medium side) adds up to (the square of the length of the longest side)
'A' squared, plus 'B' squared, must equal 'C' squared, but only if the 'C' side is the hypotenuse (long side). A right (or left) triangle MUST have ONE 90-degree angle.
The square root of 149 (7 squared plus 10 squared equals 149).
If its a 300-600-right angle triangle then the third angle must be 90 degrees. Then its base squared plus its height squared equals its hypotenuse squared usually written in the form of: a2+b2 = c2