idont know people i really search ervery single information but theres nothing its a hexagon,square,circleor an equilateral triangle
the answer is a circle because its round
A sphere.A sphere.A sphere.A sphere.
yes there are several ways to tesselate this figure.
No, they cannot.
Square.
Mostly true - you cannot tessellate only regular pentagons in two dimensions, since you cannot sum up the intersection of the angles to 360 degrees. If you tessellate a regular pentagon in three dimensions, you end up with a dodecahedron.
yes... this figure does tessellate
A sphere.A sphere.A sphere.A sphere.
No. Regular hexagons tessellate and cannot form a 3-d shape.No. Regular hexagons tessellate and cannot form a 3-d shape.No. Regular hexagons tessellate and cannot form a 3-d shape.No. Regular hexagons tessellate and cannot form a 3-d shape.
You cannot tessellate convex polygons with 7 or more sides.
An octagon can be used to create a tessellation, but an octagon cannot tessellate on its own.
five-sided polygons cannot tessellate
yes there are several ways to tesselate this figure.
Numbers cannot tessellate.
No, they cannot.
All triangles will tessellate. All quadrilaterals will tessellate There are 15 classes of convex pentagons – the latest discovered in 2015 – which will tessellate. Regular hexagons will tessellate. In addition, there are 3 classes of irregular convex hexagons which will tessellate. No convex polygon with 7 or more sides will tessellate.
A regular octagon will not tessellate - the 'spaces' left over are squares.
Square.