An example of a dodecagon would be a semiregular tiling.There are many but some have dodecagons.
A dodecagon has 12 interior angles. To find the sum of the interior angles of a dodecagon, you can use the formula ((n - 2) \times 180) degrees, where (n) is the number of sides. For a dodecagon, this calculation gives ((12 - 2) \times 180 = 1800) degrees, so the sum of all interior angles is 1800 degrees. Each interior angle in a regular dodecagon would then measure 150 degrees.
Of course; why would you think otherwise?
It would be a dodecagon.
A dodecagon has 12 sides, while a quadrilateral has 4 sides. To find out how many more sides a dodecagon has than a quadrilateral, you subtract the number of sides of the quadrilateral from the number of sides of the dodecagon: 12 - 4 = 8. Therefore, a dodecagon has 8 more sides than a quadrilateral.
check the wikipedia page - its got the formula(s) there ... http://en.wikipedia.org/wiki/Dodecagon
An example of a dodecagon would be a semiregular tiling.There are many but some have dodecagons.
A dodecagon has 12 interior angles. To find the sum of the interior angles of a dodecagon, you can use the formula ((n - 2) \times 180) degrees, where (n) is the number of sides. For a dodecagon, this calculation gives ((12 - 2) \times 180 = 1800) degrees, so the sum of all interior angles is 1800 degrees. Each interior angle in a regular dodecagon would then measure 150 degrees.
Of course; why would you think otherwise?
It would be a dodecagon.
A dodecagon has twelve vertices.
Yes it can.
Assuming the shape is a regular dodecagon, with 12 angles and lengths the same, a dodecagon with sides of 9.25 centimetres has a perimeter of 9.25 x 12 = 110 centimetres.
A dodecagon is a polygon with 12 sides.
A dodecagon has 12 sides, while a quadrilateral has 4 sides. To find out how many more sides a dodecagon has than a quadrilateral, you subtract the number of sides of the quadrilateral from the number of sides of the dodecagon: 12 - 4 = 8. Therefore, a dodecagon has 8 more sides than a quadrilateral.
10 * * * * * Polyhedra are named according to the number of faces that they have. So a 3d dodecagon, called a dodecahedron would have 12 faces.
A dodecagon has 12 vertices.