Any 3 given numbers representing the sides of a triangle that do not comply with Pythagoras' theorem for a right angle triangle are not valid.
If you mean units of 6 8 and 10 then yes they can form the sides of a right angle triangle.
There are no numbers on that list that could be the sides of a right triangle. Oh, all right. The following is the answer:
Any triangle has three sides, whether it is a right triangle or not.
Yes because they comply with Pythagoras' theorem for a right angle triangle
state if the three numbers can be measures of the sides of a triangle. show your work 1- 15,12,9
They are Pythagorean triples
If you mean units of 6 8 and 10 then yes they can form the sides of a right angle triangle.
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.
no it cannot represent as in angle triangle rule it doesnt prove that term
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 .
There are no numbers on that list that could be the sides of a right triangle. Oh, all right. The following is the answer:
Three numbers may or may not define a right triangle. Also, the answer will depend on whether the three numbers are the lengths of sides or the measures of angles.
No. There can be no isosceles right angled triangle with all three sides being rational numbers.
They are Pythagorean triples
Any triangle has three sides, whether it is a right triangle or not.
Yes because they comply with Pythagoras' theorem for a right angle triangle
right triangle and equilateral triangle both have 3 sides