A square and a rhombus both have 4 congruent sides but their interior angles are different
They are a square and a rhombus
No. It could be a Rectangle or a square...
A rhombus has all sides congruent with no sides *necessarily* perpendicular. Normally a square is considered a kind of rhombus. So the answer would be "non-square rhombus."
The adjacent sidesof a rhombus are always congruent... that's one of the identifying factors. A rhombus has all sides congruent, opposite sides parallel, and bisecting diagonals.
A rhombus has four congruent sides. The angles don't matter, but if they're right angles, then the rhombus is a square.
Sure ! -- The sides of every rhombus are always congruent. -- If you make the angles congruent, then you have a special kind of rhombus called a "square".
A square or a rhombus. A rhombus does not have 4 congruent angles as a square does. It's always a rhombus. And, depending on the angles, it could also be a square. (This definition treats the square as a special case of the rhombus.)
a square and a rhombus
They are a square and a rhombus
Because the definition of a square is having four congruent sides and angles and a rhombus has four congruent sides.
A square. Parallelogram * * * * * No. It is a rhombus and a square is a special case of a rhombus. A parallelogram does not have four congruent sides, but two pairs of sides that are congruent to one another.
No. It could be a Rectangle or a square...
A square, always, a rhombus, always, a parallelogram, always, and rectangles, always.
A square or a rhombus.
A rhombus has all sides congruent with no sides *necessarily* perpendicular. Normally a square is considered a kind of rhombus. So the answer would be "non-square rhombus."
No because a rhombus has 4 congruent sides but it is not a square
No because a rhombus has 4 congruent sides but it is not a square