It is a triangular prism which has 5 faces, 9 edges and 6 vertices
6 rectangles an 2 hexagon * * * * * A hexagonal prism.
A composite figure is a figure that is made up of several smaller geometric figures like triangles, circles, or rectangles.
square
There are 4 triangles that make up a pyramid. 4 on the sides and on the bottom a square or rectangle.
A triangular prism would fit the given description which has 5 faces, 9 edges and 6 vertices
Triangular Prism
rectangular pyramid
The shape is a triangular prism. This is a 3-dimensional polygon with two ends that are triangles and three rectangular sides connecting them.* * * * *FYI, a 3-dimensional polygon is known as a polyhedron.
An object made up of three rectangles and two triangles could be a house. The rectangles can represent the main structure and the door, while the triangles can represent the roof. This simple geometric composition is often used in basic architectural designs or children's drawings of houses.
6 rectangles an 2 hexagon * * * * * A hexagonal prism.
A composite figure is a figure that is made up of several smaller geometric figures like triangles, circles, or rectangles.
a geometric shape made up of 20 triangles. :)
An irregular shape that can be divided into familiar shapes like rectangles, triangles, and circles is often referred to as a composite shape. By breaking it down into these simpler components, you can calculate the area of each individual shape and then sum them up to find the total area of the irregular shape. This method allows for easier computation and understanding of more complex geometries.
square
It would depend on the triangles, but assuming they were equilateral or isosceles, a trapezoid if alternated in a line.
I assume you mean the calculation required. Split the irregular shape up into shapes for which you can find the area (eg rectangles, triangles), then the area of the shape is the sum of the areas of the smaller shapes.
A trianglular prism is made up of triangles and rectangles, so its net must have the same shapes.