Either a square or rectangle fit this description.
A square, rectangle, parallelogram, or tetrahedron all fit this description.
Rhombuses are the group of quadrilaterals that have diagonals that bisect their opposite angles.
In parallelograms, the diagonals may be unequal in length but bisect a pair of equal angles at opposite ends of the parallelogram.
Squares do.
No, a rectangle's diagonals do not bisect opposite angles.
In rhombuses and squares the diagonals bisect opposite angles.
The diagonals will not always bisect opposite angles in the rectangle.
Not for every parallelogram. Only for a rhombus (diamond) or square will the diagonals bisect the opposite angles they connect, and diagonals are perpendicular. In rectangles, the diagonals do not bisect the angles and are notperpendicular, but they do bisect each other.
Rhombus and square are the only quadrilaterals whose diagonals bisect the angles of the quadrilateral. In both these quadrilaterals, the diagonals intersect at right angles, dividing each angle into two equal parts.
The diagonals will not always bisect opposite angles in a rectangle.
The diagonals of a rectangular shape will only bisect opposite angles if, in fact, the shape is a square. Otherwise they will not bisect them.
The diagonals will not always bisect opposite angles in the rectangle.
a rhombus
Yes
yes