Well, honey, that would be rectangles. Those four-sided figures have diagonals that are equal in length and intersect at right angles outside the shape. So, if you're looking for a shape with some perpendicular diagonal action, rectangles are where it's at.
Perpendicular lines form right angles when they intersect.
The diagonals will not always bisect opposite angles in a rectangle.
rectangle
Yes
64 sides = 64 angles From one angle you can draw (64 - 2) diagonals = 62. Lines from an angle to the immediately adjacent angles are sides, not diagonals.
Square and Rhombus
Squares
kite,square and rhombus
Rhombus and square are the only quadrilaterals whose diagonals bisect the angles of the quadrilateral. In both these quadrilaterals, the diagonals intersect at right angles, dividing each angle into two equal parts.
Most quadrilaterals will satisfy that requirement. Those that do (squares and kites) are the exception.
All apart from square, rhombus, kite and arrowhead.
Quadrilaterals with diagonals that are perpendicular to each other include rhombuses, squares, and kites. In a rhombus and a square, the diagonals bisect each other at right angles. In a kite, the diagonals intersect at right angles but do not necessarily bisect each other. These properties are characteristic of these specific types of quadrilaterals.
Quadrilaterals with diagonals that do not meet at 90 degrees are known as non-rectangular or non-square quadrilaterals. Examples include parallelograms, rhombuses, and trapezoids. In these quadrilaterals, the diagonals may intersect at different angles depending on the specific properties of the shape.
Rectangle and Square I think. * * * * * Unfortunately, not correct. Square and Kite but not Rectangle.
Well, honey, let me break it down for you. The only quadrilaterals where the diagonals intersect at 90 degrees are rectangles. So, if you're looking for some right angles in your shape, stick with rectangles and you'll be golden.
A square, a rhombus and a kite are three examples of quadrilaterals that have perpendicular diagonals that intersect each other at right angles.
A quadrilateral with diagonals of different lengths can be a rectangle or a kite. In a rectangle, the diagonals are equal in length, while in a kite, the diagonals are not equal and intersect at right angles. Other quadrilaterals, like trapezoids and irregular quadrilaterals, can also have diagonals of different lengths. Therefore, many quadrilaterals can fit this description, depending on their specific properties.