A parallelogram where all sides are equal is a square.
Not unless all angles are also equal. A rhombus is a parallelogram with all sides equal. A rectangle is a parallelogram with all angles equal. A square is a rhombus with all angles equal which is a parallelogram with all sides equal and all angles equal.
Square. By definition, its sides must all be equal.
A square has all sides equal. A rectangle has two sets of equal sides.
A Square
Yes it does - ALL four sides are equal in a square.
A parallelogram where all sides are equal is a square.
This would be a square. A rhombus is a parallelogram with all sides equal. A square is a rhombus with all angles equal (to 90°)
It is a square as square has 4 sides and all of them are equal. Also it has 4 corners.
a square's sides are all equal and can be called a rhombus but a rectangle's sides aren't all equal
If all of the sides are equal and it is a four sided figure then it is either a rhombus or a square. If all of the angles are also equal then it is a square.
Not unless all angles are also equal. A rhombus is a parallelogram with all sides equal. A rectangle is a parallelogram with all angles equal. A square is a rhombus with all angles equal which is a parallelogram with all sides equal and all angles equal.
Square. By definition, its sides must all be equal.
A square has all sides equal. A rectangle has two sets of equal sides.
No. The opposite sides are always equal to each other. All sides are equal only if it is a square or rhombus.
A Square
A square is a rectangle. A square is a rectangle with equal sides. A rectangle Has to have 4 right angles (and only 4 corners). A Square has the same definition (4 right angles, and only 4 corners) but all the sides have to be equal. A square is not a rhombus. A rhombus is a parallelogram with equal sides. A parallelogram has to have 4 sides (2 pairs of equal sides.) The equal sides must be parallel. A rhombus has the same definition (4 sides - 2 pairs of equal sides. The equal sides must be parallel.) but all the sides have to be equal lengths.