A parallelogram is any quadrilateral in which both sets of opposite sides are parallel, or will never intersect. Squares and rectangles (both quadrilaterals) satisfy that condition, and so would rhombus.
All squares are rectangles. All rectangles aren't 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).
No but all squares are a rectangles
Yes, all Squares are rectangles, but not all rectangles are squares because it needs to have all equal sides.
All squares are rectangles also, but not all rectangles are squares, only equilateral rectangles are considered square.
True. All squares are rectangles, but not all rectangles are squares.
That depends on if the rectangles are touching or if you are asking if different kinds of rectangles are squares. But, either way, all rectangles are squares, but not all squares are rectangles.
204 squares and 1,296 rectangles. That's a total of 1,296 rectangles and squares because squares are rectangles.
No, but all squares are all rectangles.
Rectangles are not squares. The reason to this is because squares must have sides of equal lengths. Rectangles are quadrilaterals with sides that join to make 90 degree angles, but are not restricted to having the same length. Therefore "all squares are rectangles", but rectangles cannot be squares.
squares are rectangles because they are both four sided but rectangles are not squares because a rectangle doesn't have equal sides and squares have equal sides
No, rectangles are not squares