The theorem you are referring to is a2+b2=c2 which is called the Pythagorean theorem. This describes the side lengths of a right triangle in which the two sides that meet at a right angle are sides a and b respectively and side c is the hypotenuse.
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The verbal expression of 3b to the second power plus 2a to the 3rd power is "three b squared plus two a cubed."
If you mean: b squared+b+25 then the given quadratic expression can't be factored because its discriminant is less than zero.
A Mathematician named Pythagorean. That is why it is called Pythagorean's theorem. For every right triangle, this theorem will be true.
i think its a^2(squared) plus b^2 equals c^2
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The verbal expression of 3b to the second power plus 2a to the 3rd power is "three b squared plus two a cubed."
If you mean: b squared+b+25 then the given quadratic expression can't be factored because its discriminant is less than zero.
A Mathematician named Pythagorean. That is why it is called Pythagorean's theorem. For every right triangle, this theorem will be true.
you use A squared plus B squared equals C squared
If you mean: a^2 + b^2 = c^2 then it is Pythagoras' theorem or formula for a right angle triangle
The GCF is a^2b
2.5 + 3.4 Pythagorean Theorem?
sqrt[(a + b)2*(c + d)/pi] = (a + b)*sqrt[(c + d)/pi]
i think its a^2(squared) plus b^2 equals c^2
It is the formula for Pythagoras' theorem for right angle triangles.
(a3 + b3)/(a + b) = (a + b)*(a2 - ab + b2)/(a + b) = (a2 - ab + b2)