No, and all parrallelograms are not quadralaterals.
All of them, except rectangles. (Rectangles are special parallelograms.)
No but they are all 4 sided quadrilaterals
yes. rectangles are just the special cases of parallelograms where the angles are all 900
Opposite angles are congruent in a parallelogram.
No, and all parrallelograms are not quadralaterals.
No. Anything with 4 sides is a quadrilateral but a parallelogram must have pairs of opposite sides of equal length. All squares and rectangles are parrallelograms.
All of them, except rectangles. (Rectangles are special parallelograms.)
Yes, rectangles are a special case of parallelogram, with four right angles.
In fact, some are rectangles, but not all are.
Yes they are special rectangles that are tilted over
it is a gogo
No but they are all 4 sided quadrilaterals
yes. rectangles are just the special cases of parallelograms where the angles are all 900
Most rectangles are not rhombuses, but there is a shape that has all the properties of a rectangle and all the properties of a rhombus at the same time. It is called a square. A square is a special rectangle and a special rhombus.
the three special quadrilaterals that can be a parallelogram are a rectangle, a square, and a rhombus Actually, this is incorrect. All squares are rectangles. All rectangles are parallelograms. Therefore all squares are parallelograms. But not all parallelograms are rectangles. And not all rectangles are squares.
No, the other way. All squares are parallelograms.