No
No. Bye
yes... this figure does tessellate
No it does not tessellate you have to pentagons in order for it to tessellate. * * * * * It is not at all clear what "have to pentagons" has to do with this. No polygon with 7 or more sides will tessellate. Octagons will tessellate if mixed with squares but that is not "proper" tessellation since it involved more than one shape.
A regular pentagon will not tessellate.
To be able to tessellate where a vertex meets other vertices, the total of those angles must be a full circle of 360°. The interior angle of an Octagon is 135° which does not divide into 360° which means there cannot be a complete number of vertices meeting and so it cannot, by itself, tessellate. However, two octagons meeting at a point would have 135° + 135° = 270° leaving 90° which is the interior angle of a square. So octagons and squares together will tessellate.
A square will tessellate leaving no gaps or overlaps but a circle does not tessellate.
because a circle is round. you need uncurved edges to tessellate.
No.
No but a square will tessellate on its own.
yes
No. Bye
Hexagon: Yes Circle: No
No.
There will always be a gap between any three circles and so they cannot tessellate.Rhombi, alone, WILL tessellate.
In order for a polygon to tessellate, the angles must add up to 360 degrees, to come full circle. Triangles have 60 degree angles, so 6 of them circle together. Squares have 90 degree angles, so 4 of them tessellate to a point. Hexagons can even tessellate, because the 120 degree angles add up to 360. But pentagons have 108 degree angles. Three of them add up to 324, only leaving 36 degrees left to close the circle.
No. Circles lack straight edges, and thus cannot tesselate with triangles.
A square can tessellate but a regular pentagon can't tessellate