Are all parallelograms squares?

By definition, all squares are parallelograms. Not all parallelograms, however, are squares. All rectangles and rhombuses are also parallelograms.

All squares are parallelograms, but all parallelograms are not squares.

False! Squares are parallelograms. Parallelograms can be squares or rectangles or neither.

A square is a parallelogram, but not all parallelograms are squares.

Yes. All squares are parallelograms but not all parallelograms are squares.

Parallelograms are squares is sometimes true. Squares are parallelograms is always true. Rhomboids are parallelograms is also always true. So not all parallelograms are squares but some are.

No, a parallelogram is not always a square, but a square is a parallelogram.

Yes. But not all parallelograms are squares. All squares are also rectangles (and all rectangles are parallelograms), but not all rectangles are squares. "parallelogram" just means both pairs of sides are parallel (and rectangle just means all the angles are right). Yes, since they all have a pair of sides that are parallel, they are all parallelograms. Parallelograms are squares only if all four sides are of the same length and all interior angles are…

No, the other way. All squares are parallelograms.

Not necessarily. All parallelograms are quadrilaterals but not all quadrilaterals are parallelograms. Parallelograms are more specific instances of quadrilaterals. Its like saying all squares are rectangles but not all rectangles are squares.

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, but you can draw a parallelogram that is not a square. All squares are parallelograms, but only some parallelograms are squares.

Are all rectangles parallelograms

Some parallelograms are squares - the ones which are equiangular (have equal angles) and are equilateral (have equal side lengths). All squares are parallelograms, but only some parallelograms are squares.

All squares are parallelograms

No shape is a square but not a parallelogram as all squares are parallelograms: All parallelograms have opposite sides parallel and of equal length, and opposite angles are equal. All squares have opposite sides that are parallel and of equal length, and opposite angles are equal; thus all squares are parallelograms. However, all squares also have all angles equal to 90o and all four sides equal, but some parallelograms have angles not all 90o and/or…

Quadrilateral can certainly be parallelograms, but they can also be squares, rectangles, and other 4-sided shapes. All parallelograms are quadrilaterals but not all quadrilaterals are parallelograms.

A square. All squares are parallelograms, but not all parallelograms are squares.

No but parallelograms and squares are both 4 sided quadrilaterals

Parallelograms include squares, but not the other way around.

False. All rhombuses are parallelograms, so all rhombuses have 2 pairs of parallel sides.

A parallelogram is a four-sided figure with opposite sides parallel. Squares and rectangles are two examples of parallelograms. A square is a four-sided figure that has four equal sides, and opposite sides are parallel.

Parallelogram is not a square Answer By definition, all squares are parallelograms because opposing sides of any square are parallel to each other. However, not all parallelograms are square because their sides are not always an equal length, nor are the angles of any two adjacent sides always 90 degrees. Therefore, all squares are parallelograms, but not all parallelograms are squares.

Yes because all squares and rectangles are four-sided parallelograms. All squares are rectangles but not all reclangles are squares.

Yes. Squares are just complex rectangles, as the definition of a rectangle is that it has four right angles with opposite sides being parallel.