Draw a line touching one side to the opposite side of the square, which is not parallel to any side, and does not touch any vertex, so you will have two new quadrilaterals, each one has one pair of parallel sides and one pair of nonparallel sides.
Draw one line vertically - splitting the square in half, and draw one line diagonally - corner to corner.
No, trapezoids do not have right angles. A trapezoid is a quadrilateral with only one pair of parallel sides. The other two non-parallel sides can be of different lengths and angles.
Yes, the trapezoid's angles must be 90 degrees however.
you can make a square based pyramid using 4 triangles and a 1 square
4
Draw one line vertically - splitting the square in half, and draw one line diagonally - corner to corner.
No, trapezoids do not have right angles. A trapezoid is a quadrilateral with only one pair of parallel sides. The other two non-parallel sides can be of different lengths and angles.
Yes, the trapezoid's angles must be 90 degrees however.
there are 2 draw a line down the center of the hexagon
use 4 triangles, make 2 trapezoids then put them into a hexagon
You basicly combine a triangle with a square.. Triangle on top and square on bottom..
If you mean - to draw a square with the diagonals using one continuous line - you can't. It's an impossible puzzle !
Six, I would guess!
Minimally, two (2) trapezoids are necessary to create a hexagon. (This solution comes from drawing a line straight across the center of the hexagon.) Most numbers (if not all) greater than two are also feasible, but with more finagling.
you can make a square based pyramid using 4 triangles and a 1 square
split it in half
three