In Euclidean geometry, a right kite is a kite that can be inscribed in a circle. That is, it is a kite with a circumcircle. Thus the right kite is a convexquadrilateral and has two opposite right angles. If there are exactly two right angles, each must be between sides of different lengths. All rightkites are bicentric quadrilaterals, since all kites have an incircle. One of the diagonals divides the right kite into two right triangles and is also a diameter of the circumcircle. In a tangential quadrilateral, the four line segments between the center of the incircle and the points where it is tangent to the quadrilateral partition the quadrilateral into four right kites.
Special case
A special case of right kites are squares, where the diagonals have equal lengths, and the incircle and circumcircle are concentric.
Characterizations
A kite is a right kite if and only if it has a circumcircle. This is equivalent to its being a kite with two opposite right angles.
Metric formulas
Since a right kite can be divided into two right triangles, the following metric formulas easily follow from well known properties of right triangles. In a right kite ABCD where the opposite anglesB and D are right angles, the other two angles can be calculated from where a = AB = AD and b = BC = CD. The area of a right kite is The diagonalAC that is a line of symmetry has the length and, since the diagonals are perpendicular, the other diagonal BD has the length The radius of the circumcircle is and, since all kites are tangential quadrilaterals, the radius of the incircle is given by where s is the semiperimeter. The area is given in terms of the circumradius R and the inradius r as If we take the segments extending from the intersection of the diagonals to the vertices in clockwise order to be,,, and, then, This is a direct result of the geometric mean theorem.
Sometimes a right kite is defined as a kite with at least one right angle. If there is only one right angle, it must be between two sides of equal length; in this case, the formulas given above do not apply.