Absolutely.
The answer depends on whether or not the shapes are similar. If they are, then the ratio of volumes is the cube of the ratio of the linear dimensions.
aluminum comes in different shapes.
tessalating shapes are shapes that can be moved in different angles from one point of the shape
Dodecagon is one possible answer.
A pattern of shapes that has no gaps or overlapping is called a tessellation. Tessellations are arrangements of closed shapes that completely cover a surface without any overlaps or gaps. They can be created using a variety of shapes, such as triangles, squares, hexagons, or even more complex shapes. Tessellations can be found in art, architecture, and mathematics, and have been studied for centuries for their aesthetic and geometric properties.
To make two shapes have the same surface area but different volumes, you can manipulate their dimensions while maintaining the surface area constant. For instance, consider a cube and a rectangular prism; by adjusting the length, width, and height of the rectangular prism while keeping its surface area equal to that of the cube, you can achieve different volumes. The cube has equal dimensions, while the rectangular prism can have varied dimensions that lead to a different volume while ensuring the overall surface area remains unchanged.
Different molecules have different shapes and volumes.
Shapes and volume can be used to classify materials based on their physical properties, such as density and porosity. Different materials have unique shapes and volumes, allowing scientists to categorize and differentiate them based on these characteristics. For example, materials with irregular shapes and volumes may have different properties compared to materials with uniform shapes and volumes.
Rectangles are plane shapes and cannot have volumes.Rectangles are plane shapes and cannot have volumes.Rectangles are plane shapes and cannot have volumes.Rectangles are plane shapes and cannot have volumes.
There are different formulae for different shapes.
There are different formulae for different shapes.
There are different formulae for different shapes.
Any liquid.
Solids have definite shapes and definite volume.
Organelles is a possible answer.
It depends on the shape. There are different formulae for different shapes.
4 x 4