Different polygons have different relationships between perimeter and area. For example, if we assume regular polygons, an equilateral triangle and a square have different perimeters for the same area. If you allow irregular polygons, the variety is even bigger.
in order to find the area of a rectangle you must multiply the base of the rectangle by its height. This is also the same for most polygons
More information about the two polygons is required.
The use of Pick's Theorem is to find the area of polygons when they are located on a lattice grid.
The remaining figure is the are of polygons that bounded by three dimensional figure .
For instance, you might divide the polygons into triangles, calculate the area of each triangle, and then add everything up.
Different polygons have different relationships between perimeter and area. For example, if we assume regular polygons, an equilateral triangle and a square have different perimeters for the same area. If you allow irregular polygons, the variety is even bigger.
no
You will need to divide the shaded area into smaller parts, such as triangles or rectangles, or find the length of sides of these polygons.
in order to find the area of a rectangle you must multiply the base of the rectangle by its height. This is also the same for most polygons
More information about the two polygons is required.
The use of Pick's Theorem is to find the area of polygons when they are located on a lattice grid.
For a SQUARE, the area is (2r)2 because the length and width are the same. The apothem (radius) is used to find the area of other regular polygons.
The remaining figure is the are of polygons that bounded by three dimensional figure .
area of a polygon is the amount of area inside the polygon. A square is a polygon and its area is the side length squared, ie times itself. Some polygons are harder to find the area of.
Most shapes can be divided into a combination of simple polygons.
no. similar polygons do not have the same area. similar just means that they have the same angle measurements and are proportional.