All squares are rectangles also, but not all rectangles are squares, only equilateral rectangles are considered square.
The statements:It is a quadrilateral (a shape with 4 sides)It has two pairs of opposite sides equal of equal length which are parallelAll angles are equal at 90°The diagonals are equal in length and bisectall squares are rectangles but not all rectangles are squaresare all true about squares and rectangles
No. Only some rectangles are - when they are squares.
False.
Are all rectangles parallelograms
True. All squares are rectangles, but not all rectangles are squares.
A reversible statement is one where the truth of the statement would still hold if the subject and predicate were reversed. For example, "All squares are rectangles" is reversible because it is also true that "All rectangles are squares."
all squares are rectangles but not all rectangles are squares
The above statement is not true since some rectangles ARE squares. Squares are a special type of a rectangle - one in which all sides are of equal length. In other words, the set of all squares is a subset of the set of all rectangles.
Not necessarily. If the statement is "All rectangles are polygons", the converse is "All polygons are rectangles." This converse is not true.
Yes, all Squares are rectangles, but not all rectangles are squares because it needs to have all equal sides.
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
False! Squares are parallelograms. Parallelograms can be squares or rectangles or neither.
No, rectangles are not squares
All squares are rectangles also, but not all rectangles are squares, only equilateral rectangles are considered square.
A square is a specialized type of a rectangle. All squares are also rectangles, but only some rectangles are squares.