A square
By using Pythagoras' theorem.
√34 (square root of 34) or 5.83
Yes, squares do have intersecting lines. Infact they have 2 diagnol intersecting lines.
13m
A square
16cm squared.
By using Pythagoras' theorem.
√34 (square root of 34) or 5.83
Yes, squares do have intersecting lines. Infact they have 2 diagnol intersecting lines.
horizantal, vertical,diagnol. horizantal, vertical,diagnol.
If the perimeter is 64, then one side is 16. The diagonal is the hypotenuse of a right triangle. Hello Pythagoras. The answer is the square root of 512 or 16 times the square root of 2.
13m
Assuming that you mean diagonal (not diagnol) lines, they are straight lines that join non-adjacent vertices in a polygon or polyhedron.
Get a square piece of paper. Fold it into a triangle (diagnol half) two times.Then, fold it 3 times. Then,fold the little thing in, and you're done.
two congruent triangles
the diagnol is the side of the square times squareroot(2) so the length of the side is 11/squareroot(2) and in simplified form your final answer is 11*squareroot(2)/2