All of them can be used.Any triangle or quadrilateral will tessellate. There are 15 classes of irregular convex pentagons which will tessellate. Regular hexagons and 32 classes of irregular convex hexagons will tessellate. There are also concave pentagonal and hexagonal shapes which will tessellate.
A regular hexagon will tessellate. Other hexagons may or may not tessellate.
No. No shape with 7 or more sides will tessellate with multiple copies of itself. All traigles and quadrilaterals will tessellate, there are 14 irregular pentagons (the last was discovered in 2016), and a number of hexagons - including the regular hexagon.
If it's a regular hexagon it will tessellate.
no
A regular hexagon and some irregular ones will tessellate, But in general they will not.
All of them can be used.Any triangle or quadrilateral will tessellate. There are 15 classes of irregular convex pentagons which will tessellate. Regular hexagons and 32 classes of irregular convex hexagons will tessellate. There are also concave pentagonal and hexagonal shapes which will tessellate.
A regular hexagon will tessellate.
Yes; it will form a honey-comb shape. <http://gwydir.demon.co.uk/jo/tess/bighex.gif> for image.
A regular hexagon will tessellate. Other hexagons may or may not tessellate.
No. No shape with 7 or more sides will tessellate with multiple copies of itself. All traigles and quadrilaterals will tessellate, there are 14 irregular pentagons (the last was discovered in 2016), and a number of hexagons - including the regular hexagon.
Yes. Tessellated hexagons are the basis of many natural structures such as honeycombs.
If it's a regular hexagon it will tessellate.
Hexagon: Yes Circle: No
no
Yes.
Yes, a regular hexagon does tessellate.