If you have a diagram, divide it equally in six peices, then take three groups of two and erase the line in between the twos.
first divide the hexagon into three parts a rectangle and two triangles then try to findthe areas of all and then take individual heights and add them to get the height of the hexagon
dont ask me, ask mathematicions
Assuming you have a regular hexagon, drawing a line between every other vertex and the center will give you three congruent quadrilaterals (that also happen to be parallelograms... in fact, they are rhombuses).
Just one diagonal will divide a hexagon into two halves
It is possible to divide a hexagon into 4 or more - up to infinitely many - triangles.
This provided illustration (below) might not be terribly accurate but the three equal parts are meant to be the shapes of three rhombus'. All three lines join up in the center of the hexagon.______/ \ \/ \ \/ \____\ Hexagon divided into 3 equal rhombuses.\ / /\ / /\ /____/
first divide the hexagon into three parts a rectangle and two triangles then try to findthe areas of all and then take individual heights and add them to get the height of the hexagon
Select any point inside the hexagon and draw a line segment to any point on the boundary of the hexagon. Draw 7 more such segments. These will divide the hexagon into 8 parts. The parts will not be equal but that was not a requirement of the question.
Partitioning a general hexagon into 6 equal parts is normally extremely difficult..
dont ask me, ask mathematicions
Divide it into 72 pieces, group them into groups of 8. DoNe
Assuming you have a regular hexagon, drawing a line between every other vertex and the center will give you three congruent quadrilaterals (that also happen to be parallelograms... in fact, they are rhombuses).
In general it cannot be done. In the rare case that the hexagon is regular, select three alternate vertices and draw lines to the centre (centroid) of the hexagon. These will form three congruent rhombi.
Draw a line from midpoint of every other side to the center.
Divide 3 inches in 5 equal parts
A circle can.
Just one diagonal will divide a hexagon into two halves