There are 5*4*3*2*1 = 120 possibilities.
Six.
jyf
A dodecahedron.A dodecahedron.A dodecahedron.A dodecahedron.
There are infinitely many regular pentagons - a different one for each value for the length of its side.
Yes providing that they are regular 5 sided pentagons otherwise no if they are irregular pentagons
Six.
The 3-d figure formed from regular pentagons is the dodecahedron which has 20 vertices.
Footballs are not all the same.One shape that was used for footballs is the truncated icosahedron. The shape has 12 regular pentagons and 20 regular hexagons. It has 32 faces, 60 vertices and 90 edges.Footballs are not all the same.One shape that was used for footballs is the truncated icosahedron. The shape has 12 regular pentagons and 20 regular hexagons. It has 32 faces, 60 vertices and 90 edges.Footballs are not all the same.One shape that was used for footballs is the truncated icosahedron. The shape has 12 regular pentagons and 20 regular hexagons. It has 32 faces, 60 vertices and 90 edges.Footballs are not all the same.One shape that was used for footballs is the truncated icosahedron. The shape has 12 regular pentagons and 20 regular hexagons. It has 32 faces, 60 vertices and 90 edges.
a dodecahedron is a regular geometric solid, it has 12 pentagons as faces, 30 vertices and 30 edges
Regular pentagons do not tessellate.
A regular pentagon is convex. By taking a regular pentagon and shortening or lengthening one or more sides, an infinite number of possible convex pentagons can be created. A convex polygon is defined as a polygon such that all internal angles are less than or equal to 180 degrees, and a line segment drawn between any two vertices remains inside the polygon. It is possible to have non-convex (concave) pentagons; there are infinite number possible ways to do this, too.
jyf
If you draw two regular polygons, for example pentagons, of two different sizes, the length of the sides will vary between the two pentagons, but the angle between the sides of the pentagons will be the same, therefore the sum of the angles will not change.
Not if they are regular 5 sided pentagons
A dodecahedron.A dodecahedron.A dodecahedron.A dodecahedron.
There are infinitely many regular pentagons - a different one for each value for the length of its side.
Yes providing that they are regular 5 sided pentagons otherwise no if they are irregular pentagons