parallelograms and,or quadrilaterals
Yes, all Squares are rectangles, but not all rectangles are squares because it needs to have all equal sides.
True. All squares are rectangles, but not all rectangles are squares.
Oh, dude, like technically speaking, all rectangles are trapezoids, but not all trapezoids are rectangles. It's like saying all squares are rectangles, but not all rectangles are squares. So, yeah, some trapezoids can be rectangles, but not all of them. It's like a geometry mind game, man.
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.
They are all rectangles (or 2 squares and 4 rectangles).They are all rectangles (or 2 squares and 4 rectangles).They are all rectangles (or 2 squares and 4 rectangles).They are all rectangles (or 2 squares and 4 rectangles).
Yes, all Squares are rectangles, but not all rectangles are squares because it needs to have all equal sides.
Yes, all rectangles are parallelograms. However, not all parallelograms are rectangles.
It is NOT as case of 'Some'. It is ALL rectangles are parallelograms.
No but all squares are a rectangles
All rectangles are quadrilaterals.
No. Only some parallelograms are rectangles. But all rectangles are parallelograms.
All squares are rectangles also, but not all rectangles are squares, only equilateral rectangles are considered square.
All rectangles are quadrilaterals. A quadrilateral has 4 sides; all rectangles have 4 sides; thus all rectangles are quadrilaterals.
No, but all squares are all rectangles.
All rectangles are indeed parallelograms.
Yes, but all rectangles are not square