The net of a 2 dimensional shape can be folded into a 3 dimensional shape
it is called a net
The net of a cube
A net.A net.A net.A net.
A geometric net of a 3-dimensional object is a single two-dimensional figure that can be folded into the 3-d shape.
The net of a 2 dimensional shape can be folded into a 3 dimensional shape
net
world war 2
it is called a net
The net of a cube
A net.A net.A net.A net.
A geometric net of a 3-dimensional object is a single two-dimensional figure that can be folded into the 3-d shape.
A pattern that can be folded to form a three-dimensional figure is known as a net. For example, a net for a cube consists of six square faces arranged in a way that allows them to be folded up to create the cube. Each face is connected by edges, and when folded along these edges, the flat pattern transforms into the three-dimensional shape. Other examples include nets for pyramids, prisms, and other polyhedra.
To determine the unique cube that can be formed by folding a particular shape, we need to analyze its net. A net is a two-dimensional figure that can be folded to create a three-dimensional object. In the case of a cube, the only valid net that can be folded into a cube consists of six connected squares. If the net provided adheres to this configuration, it can be folded to create a cube; otherwise, it cannot form a cube.
A net.A 2-dimensional pattern that you can fold to make a 3-dimensional figure is called a net.For instance, make a letter 'T' out of 6 squares. The vertical part of the T has 4 squares, and the horizontal part has 3 squares (one square is common to both) . This net can be folded to make a cube.
Any 2-dimensional shape can be folded to form a 3-d shape. For example, any work of origami.
A net is a two-dimensional figure which can be folded into a three-dimensional figure. It's a little difficult to describe in words . . . To make a regular triangular prism, start with a rectangle, and divide it into three equal (narrow) rectangular strips. on the two ends of one of these strips, make equilateral triangles.