Not all parallelograms do but a rhombus does.
Nonagon = 9 sides Hexagon = 6 sides So answer = 3
a quadrilateral has 4 sides a hexagon has 6 sides so it's 6/4=1.5
If two parallelograms are similar then the corresponding angles are EQUAL.
3..
yes
There can be any number (>=3) of parallelograms in a regular hexagon. If it is not a regular hexagon you may not have any.
Type your answer here... hexagon
No. A hexagon has 6 sides. There are parallelograms that do not have 6 sides.
No, all parallelograms are quadrangles or quadrilaterals which have 4 sides. Hexagons have 6 sides.
Nope. A parallelogram has 4 sides, a hexagon has 6 (hex means six)
They are a miscellaneous collection of polygons.
Very many if they are much smaller than the hexagon.If the square is to have the same length side as an equilateral hexagon and you are not allowed to cut the square then one.If you are allowed to cut the square but it (they) have to have the same length side as an equilateral hexagon then: about 2.6 [Exactly (3 * (Sqrt 3)) / 2 ]
A hexagon have three diamonds. Two perfect diamonds attach together and the third diamond cut into half to create a hexagon. I know it can be a bit confusing but that is the logic of have three diamonds in a hexagon.
Quadri- = four.Lateral = side.A quadrilateral means a figure with four sides. A hexagon has six sides. Therefore, a hexagon is not a quadrilateral.Quadrilaterals include squares, rectangles, parallelograms, trapezoids, and any other random figure with four--and only four--sides.Polygons include all many-sided figures, including hexagons.
The answer depends on how you cut it.Even with a single straight cut you can get:a triangle and a heptagon,a triangle and a hexagon,a triangle and a pentagon,a quadrilateral and a hexagon,a quadrilateral and a pentagon,two quadrilaterals (trapezium),two pentagons.
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).