1 squared
c= sq rt of 73
B squared equals c squared minus a squared then to find B take the square root of you answer for b squared
This is the common form of the Pythagorean Theorem. It describes the relationship between the two legs of a right triangle and the hypotenuse.
Oh, dude, you're hitting me with some math here! So, 8 squared is 64, 15 squared is 225, and c squared is... well, c squared. If you add 64 and 225 together, you get 289. So, the answer is 289c squared. Math can be fun when you add a little sarcasm to it!
To find the answer of a triangle You do A squared+ B squared= C squared
he made the theorem C squared = A squared + B squared and A squared = C squared - B squared or B squared = C squared - A squared
40b squared c squared divide 5bc = 8
A squared + B squared = C squared
a squared + b squared = c squared
a squared + b squared = c squared
c= sq rt of 73
a squared + b squared = c squared a=leg b=leg c=hypotenuse
A squared + B squared = c squared. c is across from the right angle and you subtract A from C and that's your answer
B squared equals c squared minus a squared then to find B take the square root of you answer for b squared
This is the common form of the Pythagorean Theorem. It describes the relationship between the two legs of a right triangle and the hypotenuse.
A squared + B squared = C squared
The expression "a squared b squared minus c squared" can be mathematically represented as ( (ab)^2 - c^2 ). This can be factored using the difference of squares formula, which states that ( x^2 - y^2 = (x - y)(x + y) ). Thus, it can be factored as ( (ab - c)(ab + c) ).