Because the diagonals in a square are at right angles to one another!
The diagonals of a square bisect each other at 90 degrees
4
Yes. Think of a normal square. Now place an X in the centre of it. An X is two diagonals. When the X is placed in the square, the endpoints go from one corner to another. Therefore, a square has two diagonals.
It could be a square, but consider the following congruent & perpendicular 'diagonals of a quadrilateral (you will have to connect the endpoints of the diagonals, yourself, as it cannot be drawn in text): . _|___ . | . | . | If the two diagonals, also bisect each other, then it's a square, otherwise it is not.
It has 2 Diagonals!!!
Sure, a square is a rectangle and the diagonals of a square are perpendicular.
The diagonals of a square are perpendicular whereas the diagonals of a rectangle are not perpendicular.
Because the diagonals in a square are at right angles to one another!
The diagonals of a square are always perpendicular.
Yes the diagonals of a square are always congruent. Their length is a*root 2 where a is the side of the square.
The diagonals of a square bisect each other at 90 degrees
The diagonals of a square (which always bisect each other) are the same length.
No but the diagonals of a square intersect at right angles
4
A square has only to diagonals and either one will divide it in half.
The diagonals of a square are perpendicular whereas the diagonals of a rectangle are not perpendicular.