None but the diagonals intersect at 90 degrees
In a kite geometric shape, the diagonals are always perpendicular.
product of diagonals/2
No but its diagonals are perpendicular
No - only one of the diagonals bisects the angles of the shape.
None but the diagonals intersect at 90 degrees
Yes 1 of the diagonals of a kite is symmetrical
No, the diagonals are not equal.
No.
Yes the diagonals of a kite bisect each other at 90 degrees.
perpendicular
From Wikipedia: '...a kite, or deltoid, is a quadrilateral with two disjoint pairs of congruent adjacent sides, in contrast to a parallelogram, where the congruent sides are opposite.' In other words, a kite consists of two isosceles triangles joined at the base. Beginning with a particular isosceles triangle, it will always be possible to construct from it one kite that has equal diagonals (given that the kite may be either convex or concave). Hence an infinite number of kites do have equal diagonals, but many do not. A notable example of a kite that does have equal diagonals is a square.
In a kite geometric shape, the diagonals are always perpendicular.
The area of a quadrilateral kite is 0.5 times the product of its diagonals.
It is right through the middle
No.
Well... you tell me!