How about a rhombus or a kite
No but the diagonals of a square, rhombus and a kite are perpendicular to each other
It is a rhombus whose diagonals are perpendicular and meeting each other at right angles.
No, not all diagonals are perpendicular in all parallelograms. In general parallelograms, the diagonals bisect each other but are not necessarily perpendicular. However, in specific types of parallelograms, such as rhombuses, the diagonals are indeed perpendicular. Thus, the property of perpendicular diagonals is not a characteristic of all parallelograms.
Not always but they are perpendicular in a square, a rhombus and a kite in that the diagonals intersect each other at 90 degrees
If you are talking about the diagonals of a quadrilateral, the only quadrilateral that have diagonals that are perpendicular and bisect each other is a square, because a rectangle has bisecting diagonals, while a rhombus has perpendicular diagonals. And a square fits in both of these categories.
It is a kite or a rhombus both of which have unequal diagonals that are perpendicular to each other creating right angles.
No but the diagonals of a square, rhombus and a kite are perpendicular to each other
No but its diagonals are perpendicular to each other.
It is a rhombus whose diagonals are perpendicular and meeting each other at right angles.
If the diagonals are congruent and are perpendicular bisectors of each other then the parallelogram is a square. If the diagonals are not congruent but are perpendicular bisectors of each other then the figure would be a rhombus.
It has two diagonals, and they are perpendicular to each other.
Not always but they are perpendicular in a square, a rhombus and a kite in that the diagonals intersect each other at 90 degrees
If you are talking about the diagonals of a quadrilateral, the only quadrilateral that have diagonals that are perpendicular and bisect each other is a square, because a rectangle has bisecting diagonals, while a rhombus has perpendicular diagonals. And a square fits in both of these categories.
No but its diagonals are perpendicular to each other
A rhombus is a type of a parallelogram and its diagonals are perpendicular which means that they intersect each other at right angles.
No.
The diagonals of an isosceles trapezoid are equal in lengths but are not perpendicular to each other at right angles.