If 12 is a hypoteneuse then a^2+b^2=12^2.
If 12 is a leg then 12^2+b^2=c^2.
You cannot find any of the variables without more information.
pythagoras
you mean c? haha pythagoras
Pythagoras' theorem in finding the lengths of the sides of a right angled triangle.
you use Pythagoras theorem. Square of the Hypotenuse = square of the other 2 sides i.e ac squared = ab squared + bc square = 22 Squared + 32 Squared = 484 + 1024 = 1508 so ac = square root of 1508 = 38.83 cm(2 d.p)
The number that equals 121 when squared is 11.
pythagoras
you use A squared plus B squared equals C squared
Pythagoras.
you mean c? haha pythagoras
a2+b2=c2 a squared plus b squared equals c squared
Pythagoras' theorem in finding the lengths of the sides of a right angled triangle.
Making the Pythagorean Theorem, A squared plus B squared equals C squared on any right triangle. Also founded the Pythagorean School and Society, which influenced all later philosophers and mathematicians.
The length of side A squared plus the length of side B sqaured equals the missing side of the triangle squared. So i.e. if side A is 4 and side B is 3 then 4x4 which is 16 plus 3x3 which is 9 equals 25 and the square root of 25 equals 5. So in conclusion the missing side equals 5.
a squared plus b squared equals c squared.example: a=5 5sq is 25 b=8 bsq is 64 64+25 or a squared + b squared=89. then you find the square root of 89 and there's your answer. 9.4 [rounded]
The number that squared equals 624 is approximately 24.97.
you use Pythagoras theorem. Square of the Hypotenuse = square of the other 2 sides i.e ac squared = ab squared + bc square = 22 Squared + 32 Squared = 484 + 1024 = 1508 so ac = square root of 1508 = 38.83 cm(2 d.p)
Pythagoras developed the method to solve this- A squared plus B squared equals C squared. A squared= 8x8, added to B squared (also 8x8) So that is 64+64 or 128. So 128 is line C squared. Find the square root of 128, and you have C, which is the diagonal. (Hint- it is 11.31)