use the pathagory intherum
If the tree sides of the triangles form a Pythagoras triplet then we can say that the angle opposite to the greatest side is a right angle.
If its a right angle triangle then its side lengths could be 3, 4 and 5
Plug the side lengths into the Pythagorean theorem in place of a and b. If a2 + b2 = c2, it's a right triangle. C needs to be an integer, so c2 will be a perfect square.
1.5m
use the pathagory intherum
If the tree sides of the triangles form a Pythagoras triplet then we can say that the angle opposite to the greatest side is a right angle.
If its a right angle triangle then its side lengths could be 3, 4 and 5
Plug the side lengths into the Pythagorean theorem in place of a and b. If a2 + b2 = c2, it's a right triangle. C needs to be an integer, so c2 will be a perfect square.
Yes... but not of the same right triangle. A right triangle's side lengths a, b, and c must satisfy the equation a2 + b2 = c2.
If you mean lengths of 33 by 56 by 65 then the given dimensions will form a right angle triangle.
Yes.
right angle triangle
Yes and the given lengths would form an isosceles triangle.
1.5m
No because the given lengths don't comply with Pythagoras' theorem for a right angle triangle.
no.