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They are not - if you consider congruent triangles to be the same.
All Triangles have 3 Sides. The only thing that is unique about an equilateral triangle is all 3 sides are the same length.
There is insufficient information to provide a unique answer. Assuming that the length is greater than the width, the length, L, can be any measure from 5 to just under 10 units. The width would then be 10-L units.
All triangles are unique compared to other polygons inasmuch that they have only 3 sides and no diagonals.
One is the only integer with one factor.
They are not - if you consider congruent triangles to be the same.
More than one unique triangle exists with the given side lengths.
All Triangles have 3 Sides. The only thing that is unique about an equilateral triangle is all 3 sides are the same length.
There is insufficient information to provide a unique answer. Assuming that the length is greater than the width, the length, L, can be any measure from 5 to just under 10 units. The width would then be 10-L units.
All triangles are unique compared to other polygons inasmuch that they have only 3 sides and no diagonals.
This question has no unique answer. A (3 x 2) rectangle has a perimeter = 10, its area = 6 A (4 x 1) rectangle also has a perimeter = 10, but its area = 4 A (4.5 x 0.5) rectangle also has a perimeter = 10, but its area = 2.25. The greatest possible area for a rectangle with perimeter=10 occurs if the rectangle is a square, with all sides = 2.5. Then the area = 6.25. You can keep the same perimeter = 10 and make the area anything you want between zero and 6.25, by picking different lengths and widths, just as long as (length+width)=5.
If that's all you know, then you can't. Whatever the length of the hypotenuse is, there arean infinite number of right triangles that all have the same length hypotenuse.In order to define one unique right triangle, you need to know one of the following in addition tothe length of the hypotenuse:-- the length of one leg-- the size of either acute angle
Each integer has a unique set of multiples.
One is the only integer with one factor.
It is -987. The smallest positive 3-digit integer with unique digits is 102.
Okay. What do you want to know? No information can be drawn from that statement. No information can be given to you because you are too ambiguous. All sides congruent, by definition, makes the shape equilateral. But there is no guarantee that it is equiangular and therefore it isn't necessarily a regular polygon. Hexagons have six sides. If all sides are congruent then the perimeter is six times the length of one side and the length of one side is one-sixth the length of the perimeter. Aside from general size, an equilateral hexagon can come in only two unique types: concave and convex. For any given side-length/perimeter, there are only two possible equilateral hexagons. The area of an equiangular equilateral hexagon is 3/2*(length of one side)*(length of one side)*(square root of 3).
The fibula bone is unique because it is so slender. Remarkably, it is small in diameter compared to its length.