Yes normally
The diagonals will not always bisect opposite angles in the rectangle.
only if the rectangle is square
The diagonals of a rectangle are always congruent. This means that both diagonals have the same length, which is a property unique to rectangles and other types of quadrilaterals like squares. This congruence arises from the fact that rectangles have opposite sides that are equal in length and all angles that are right angles.
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.
Yes
The diagonals will not always bisect opposite angles in a rectangle.
The diagonals will not always bisect opposite angles in the rectangle.
The diagonals will not always bisect opposite angles in the rectangle.
No, a rectangle's diagonals do not bisect opposite angles.
Not unless the rectangle is square.
rhombus
only if the rectangle is square
The diagonals of a rectangle are always congruent. This means that both diagonals have the same length, which is a property unique to rectangles and other types of quadrilaterals like squares. This congruence arises from the fact that rectangles have opposite sides that are equal in length and all angles that are right angles.
The diagonals of a rectangle bisect the angles only if the rectangle is a square.
Either a square or rectangle fit this description.
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.
The diagonals of a rectangle do not cross at right angles