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There are an infinite number of solids with a volume of 24 cubic cm. Cuboids with sides of (1,1,24), (1,2,12), (1,3,8), (1,4,6), (2,2,6), (2,3,4) are some. In addition, there are cuboids with sides of fractional length, such as (1,2.4,10), (.1,1,240), (.01,1,2400) etc. And then there are other polyhedra such as tetrahedrons (pyramids), spheres, cones, cylinders, prisms and many many more.
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Cuboids are not always similar.
A rectangular prism that is 6 cm long, 2 cm wide and 5 cm high has a volume of 60cm3
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Length times width times height = volume.
3 x 4 x 5 = 60cm3
Lenght x Width X Height
That would obviously depend on how big you want your cuboids.
476748 not ha ha
There are an infinite number of solids with a volume of 24 cubic cm. Cuboids with sides of (1,1,24), (1,2,12), (1,3,8), (1,4,6), (2,2,6), (2,3,4) are some. In addition, there are cuboids with sides of fractional length, such as (1,2.4,10), (.1,1,240), (.01,1,2400) etc. And then there are other polyhedra such as tetrahedrons (pyramids), spheres, cones, cylinders, prisms and many many more.
There are many possible answers:Hexagonal pyramidQuadrilateral based bipyramidHexahedrons (including cuboids and cubes)There are many possible answers:Hexagonal pyramidQuadrilateral based bipyramidHexahedrons (including cuboids and cubes)There are many possible answers:Hexagonal pyramidQuadrilateral based bipyramidHexahedrons (including cuboids and cubes)There are many possible answers:Hexagonal pyramidQuadrilateral based bipyramidHexahedrons (including cuboids and cubes)
A cuboid has 8 vertices so 5 cuboids have 5*8 = 40 vertices.
It depends on the shape. there are different formulae for spheres, ellipsoids, cubes, cuboids, and other shapes.
Well, honey, there are quite a few ways to slice that cake. You can make a total of eight different cuboids with a volume of 24 cm cubed. Just mix and match those dimensions like a puzzle until you find the right fit. Happy building!
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