Diagonals are normally equal in lengths
Yes the diagonals of a rectangle are equal in lengths
Regular polygons. A square and rectangle will have congruent (equal length) diagonals.
Any rectangle will have diagonals that are equal. Don't forget that since squares are also a special type of rectangle that they would also have congruent diagonals as well.
They are of equal length.
Nope, in order for the diagonals to be perpendicular the shape must be a square (which I guess is a type of rectangle :). The diagonals will cross, but not at a 90degree angle, unless the sides are of equal length.Not unless the rectangle has 4 equal sides, making it a squre.
Sometimes as when the parallelogram is in the form of a rectangle then its diagonals are of equal lengths.
Yes the diagonals of a rectangle are equal in lengths
Regular polygons. A square and rectangle will have congruent (equal length) diagonals.
Yes, the diagonals of a rectangle are equal in length. This can be proven using the Pythagorean theorem. In a rectangle, the diagonals create two congruent right triangles, where the lengths of the sides are the width and height of the rectangle. Since the legs of these triangles are equal for both diagonals, their hypotenuses (the diagonals) must also be equal.
A square and a rectangle both have diagonals of equal lengths
A rhombus has 4 equal sides and the diagonals are always perpendicular
The diagonals are equal and they bisect each other.
Its diagonals are equal in length
yes they are
Yes
Yes, a quadrilateral that must contain diagonals that are always congruent and has four right angles is a rectangle. In a rectangle, the diagonals are equal in length, and all interior angles measure 90 degrees. A square, which is a special type of rectangle, also meets these criteria, but a rectangle does not have to be a square.
Any rectangle will have diagonals that are equal. Don't forget that since squares are also a special type of rectangle that they would also have congruent diagonals as well.