Or course. 1 & sq. rt. of 3 being the sides, 2 being the hypotenuse.
Yes. The hypotenuse would be the side of length 2.
Yes.
Pick three numbers. If the square of the largest number is equal to the sum of the squares of the other two, then the three numbers could represent the sides of a right triangle.
3 sides on a right triangle (on any triangle)+ two squares3 (triangle)+ 4 (one square)+ 4 (one square)-----------------------11i'm sorry if this is wrong and i misread the question
they could both have sides and angles....
No. In order to be the sides of a right triangle, the square of one of the numbers must be the sum of the squares of the other two numbers. (the square of 9) + (the square of 10) = 181 but (the square of 15) = 225 .
then the triangle is not a right trangle and has angles that are not 90 degrees.
Pick three numbers. If the square of the largest number is equal to the sum of the squares of the other two, then the three numbers could represent the sides of a right triangle.
3 sides on a right triangle (on any triangle)+ two squares3 (triangle)+ 4 (one square)+ 4 (one square)-----------------------11i'm sorry if this is wrong and i misread the question
A right-angled triangle can have equal sides, but does not have to. A right-angled triangle with two equal sides CANNOT be an equilateral triangle. A right-angled triangle cannot be an equilateral triangle.Divide a square along the diagonal, and you are left with two right-angled triangles with two sides of equal length.
they could both have sides and angles....
Square the two smaller sides and add them together. Take the square root of the answer. If that is the same as the third side then you have a right angled triangle and if not, then you have not.
No. In order to be the sides of a right triangle, the square of one of the numbers must be the sum of the squares of the other two numbers. (the square of 9) + (the square of 10) = 181 but (the square of 15) = 225 .
then the triangle is not a right trangle and has angles that are not 90 degrees.
An Isosceles right triangle. If the length of either of the two sides is N then the hypotenuse is N times the square root of 2. an isosceles right triangle can not be an equilateral triangle since the hypotenuse can not be the same size as the other two sides..
There are no numbers on that list that could be the sides of a right triangle. Oh, all right. The following is the answer:
It can be because it depends on the triangle's angles. For example, if the triangle has 2 equal sides and a right angle it could be a isosceles and a right triangle.
If you have a triangle then one of the sides cannot be perpendicular to the other two. It is true for a square but it is impossible with a triangle. Definition of perpendicular: Being at right angles to the horizontal; vertical.
(The square of the shortest one) + (the square of the medium one) = (the square of the longest one)