Yes because the sum of its two shortest sides is greater than its longest side.
Yes, the sum of any two sides is always greater than the third side: 9 + 4 > 11 4 + 11 > 9 11 + 9 > 4
To determine if segments with lengths 9, 4, and 11 can form a triangle, we can use the triangle inequality theorem. This states that the sum of the lengths of any two sides must be greater than the length of the third side. In this case, 9 + 4 = 13, which is greater than 11; 9 + 11 = 20, which is greater than 4; and 4 + 11 = 15, which is greater than 9. Since all conditions are satisfied, the segments can indeed form a triangle.
Yes.
Yes because the sum of its 2 smaller sides is greater than its longest side.
9, 4, and 11 are three dimensionless numbers. Yes, they can represent the lengths of the sides of a triangle. You can take three straight sticks, cut them to lengths of 9, 4, and 11 inches, then lay them down on a table so that the ends hook up and they form a triangle.
Yes.
11, 4, 8
Yes and the given lengths would form an isosceles triangle.
Yes, it does. Your triangle has an area of 12.285 square inches and a perimeter of 23 inches.
11/4 is in its simplest form. You could also represent it as 2¾
No it is not possible because the sum of the lengths of the two sides has to be greater than the length of the third side. 5 + 4 = 9 which is less than 11, so we can't form a triangle with these sides.
its 11/4 that's how simple it could get because nothing can divide by 11