here are some
144 4 1 1
9 16 25 100
1 36 49 64
7
54,45,5.4,4.5
quadrilateral, polygon, diamond, and square
The Answer:Square numbers, when arranged in a square is aready a rectangle, but otherwise speaking, all square can, since all are divisible by 1 and itself, and if the square root of that perfect square is composite, it can be rearranged into a rectangle as well, in other ways.
Four axes of symmetry: vertical axis, horizontal, positive diagonal (bottom left to top right) and negative diagonal (top left to bottom right). In fact, any straight line through the centre of the square divides it into two halves so there are an infinite number of ways, not just four. And the above are without looking at symmetric curves through the centre of the square.
7
digital & numerical
divide a square into eighths
54,45,5.4,4.5
They are Kanji, hiragana, katakana, and romaji.
Four numbers can be sorted 24 ways.
quadrilateral, polygon, diamond, and square
so if you don't understand it one way you use another
four sides, four right angles, 2 pairs of parallel lines
The Answer:Square numbers, when arranged in a square is aready a rectangle, but otherwise speaking, all square can, since all are divisible by 1 and itself, and if the square root of that perfect square is composite, it can be rearranged into a rectangle as well, in other ways.
Right to left, left to right, bottom to top, top to bottom.
Four axes of symmetry: vertical axis, horizontal, positive diagonal (bottom left to top right) and negative diagonal (top left to bottom right). In fact, any straight line through the centre of the square divides it into two halves so there are an infinite number of ways, not just four. And the above are without looking at symmetric curves through the centre of the square.