No - only one of the diagonals bisects the angles of the shape.
They are unequal in length but one of the bisects the other at right angles.
Perpendicular and the one for which each endpoint touches only sides of equal length bisects the other.
Any regular polygon with an even number of sides will have diagonals that satisfy this requirement.
1) Diagonals intersect at right angles. 2) The diagonal bisecting the angle between the two longer sides also bisects the other diagonal. 3 The area of a kite = the product of both diagonals ÷ 2.
Not necessarily.
yes it bisects.
No, but the diagonals of a square does bisects its interior angles.
No - only one of the diagonals bisects the angles of the shape.
No. It could be a kite.
A quadrilateral whose diagonals bisect each other at right angles is a rhombus. each other at right angles at M. So AB = AD and by the first test above ABCD is a rhombus. 'If the diagonals of a parallelogram are perpendicular, then it is a rhombus
The longer diagonal bisects the shorter diagonal.
In this case, the quadrilateral is sometimes a parallelogram.
not necessarily. because the diagonals of a trapezium also bisect each other and it is not a parallelogram. in order for the quadrilateral to become a parallelogram, the opposite angles of it must be equal, and the opposite sides must be equal too. the angles formed by the two diagonals( four in number) also must be equal if they are opposite angles not alternating angles.that's it pal
The diagonals bisect one another in a rhombus.
Bisect: Yes At 90 degrees: No
The diagonals of a rhombus are lines drawn from one corner, or vertex, to the opposite one. They have two important properties. 1. Diagonals bisects a pair of opposite angles. 2. Diagonals are !!perpendicular!!