Kites or arrowheads.
it cant be possible
Because they are both 4 sided quadrilaterals. * * * * * However, a typical kite has two pairs of adjacent sides which are equal whereas a in a rhombus all four sides are equal.
There are infinite amounts of quadrilaterals that have sides that aren't all equal. In regular quadrilaterals, however there are rectangles and kites that have uneven lengths of sides.
The two quadrilaterals with equal sides are the rhombus and square.
Kites or arrowheads.
it cant be possible
Because they are both 4 sided quadrilaterals. * * * * * However, a typical kite has two pairs of adjacent sides which are equal whereas a in a rhombus all four sides are equal.
There are infinite amounts of quadrilaterals that have sides that aren't all equal. In regular quadrilaterals, however there are rectangles and kites that have uneven lengths of sides.
The two quadrilaterals with equal sides are the rhombus and square.
Square & Rectangle are the only two. Rhombus (diamond) & parallelogram have adjacent sides, but no 90 degree angles (not perpendicular).
A kite has two pairs of sides and each pair is made up of adjacent sides that are equal in length. A rhombus has 4 equal sides. So most kites are NOT rhombuses, but if the two pair happen to be equal, then the kite is a rhombus.
A kite, a rhombus, a square must have two pairs of adjacent sides that are equal. Irregular polygon with 5 or more sides can have two pairs of equal sides.
There are three main types of quadrilaterals: parallelograms, trapezoids, and kites. Parallelograms have opposite sides parallel and equal in length. Trapezoids have one pair of parallel sides. Kites have two pairs of adjacent sides that are equal in length.
A rectangle has two pairs of parallel and congruent sides. An equilateral rectangle, or square, has four equal sides. Other quadrilaterals include trapezoids, which have two adjacent and equal sides, parallelograms, which have two pairs of parallel and congruent sides, and rhombi, which have four equal sides. (The a rectangle is a type of parallelogram. What differentiates it is angle configuration. A rhombus is likewise differentiated from a square by angle configuration.)
Yes. Two adjacent sides are equal; the other two sides are also equal between themselves.
parallelograms and squares.