A rhomboid and oblong
it cant be possible
A parallelogram (and all its special cases) has two pairs of opposite sides that are congruent. An isosceles trapezium has one pair of congruent opposite sides. Selected irregular quadrilaterals can have a pair.
Parallelograms Rhombuses Rectangles Squares
Square and rectangle.
no because it dosent tell all the side lenghts
it cant be possible
A rhomboid and oblong
A parallelogram if the two pairs are mutually congruent but all four sides are not. A rhombus if all four are.
A parallelogram (and all its special cases) has two pairs of opposite sides that are congruent. An isosceles trapezium has one pair of congruent opposite sides. Selected irregular quadrilaterals can have a pair.
Two different quadrilaterals have two pairs of parallel sides and have all their angles congruent. They are the square and the rectangle.
The fact that corresponding angles are congruent does not require corresponding sides to be proportional - except in the case of a triangle. For quadrilaterals, think of a square and rectangle.
Parallelograms Rhombuses Rectangles Squares
The two quadrilaterals are squares.
Of the quadrilaterals: a square, a rectangle, a parallelogram and a rhombus
Square and rectangle.
Parallelogram -- 2 pairs of parallel sides Trapezoid -- exactly 1 pair of parallel sides Rhombus -- 4 congruent sides Rectangle -- 4 angles congruent Square -- four angles and sides congruent