No, they do not. Only the longer diagonal bisects the shorter diagonal.
Yes, in the figure of a kite one diagonal bisects the other. They do not bisect each other.
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
No. A square fits the classification of a quadrilateral and a parallelogram, but that isn't necessarily the definition. A rhombus is a quadrilateral and a parallelogram, and so are other irregular quadrilaterals. The correct definition would be a parallelogram and a quadrilateral with four right angles and all equal sides.
true
In this case, the quadrilateral is sometimes a parallelogram.
Any quadrilateral that is not a parallelogram can have only one diagonal that is bisected by the other.
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
isn't it a rhombus ? the ones that are like a slanted square ? because there are no right angles but each diagonal bisects the corners.
Yes: one of them, but the other diagonal does not.
No, they do not. Only the longer diagonal bisects the shorter diagonal.
No, a parallelogram is not another kind of quadrilateral.
Not necessarily.
Yes, in the figure of a kite one diagonal bisects the other. They do not bisect each other.
True
True
Yes. The diagonals of any parallelogram bisect each other. A rectangle is a special case of a parallelogram.