Trapezoid and parallelogram/
No. The diagonals of rhombus are not equal.
they are called parallelogram in which diagonals are equal
All but the square and rectangle.
A quadrilateral with diagonals of different lengths can be a rectangle or a kite. In a rectangle, the diagonals are equal in length, while in a kite, the diagonals are not equal and intersect at right angles. Other quadrilaterals, like trapezoids and irregular quadrilaterals, can also have diagonals of different lengths. Therefore, many quadrilaterals can fit this description, depending on their specific properties.
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.
Rectangle and Isosceles Trapezoid
Isosceles trapezoid and rectangle
Quadrilaterals that have diagonals which do not bisect each other include general parallelograms, trapezoids (especially isosceles trapezoids), and irregular quadrilaterals. In these shapes, the diagonals may intersect at a point but do not split each other into equal halves. This differentiates them from special cases like rectangles and squares, where the diagonals do bisect each other.
Quadrilaterals only have two diagonals because they only have four vertices.
Quadrilaterals only have two diagonals because they only have four vertices.
All rhombuses are quadrilaterals with four equal sides and opposite angles that are equal. They have diagonals that bisect each other at right angles and are not necessarily equal in length. Additionally, the diagonals of a rhombus also bisect the angles of the rhombus. These properties distinguish rhombuses from other quadrilaterals.
trapezium