It is 28652616 metres^3.
There would be 1,452 1cm cubes that fit in a 12cmx12cmx11cm cube. This is determined by multiplying the dimensions of the larger cube together (12x12x11) and dividing by the volume of the smaller cubes, which is 1cm^3.
It is (S/s)3 where S and s are the lengths of the sides of the larger and smaller cubes, respectively.
A cubes volume is equal to the length of it's side^3. So if the side has length 2, the volume is 2*2*2 = 8.
None, since there is no "this" cube.
Edge of the larger cube = 32 cm Volume of the larger cube = (32 cm)3 = 32768 cm3 Edge of the smaller cube = 4 cm Volume of the smaller cube = (4 cm)3 = 64 cm3 Since the smaller cubes are cut from the larger cube, volume of all of them will be equal to that of the larger cube. ∴ Total number of smaller cubes × Volume of the smaller cube = Volume of the larger cube ⇒ Total number of smaller cubes = Volume of the larger cube ÷ Volume of the smaller cube ⇒ Total number of smaller cubes = 32768 ÷ 64 = 512 Thus, 512 smaller cubes can be cut from the larger one.
It is 28652616 metres^3.
There would be 1,452 1cm cubes that fit in a 12cmx12cmx11cm cube. This is determined by multiplying the dimensions of the larger cube together (12x12x11) and dividing by the volume of the smaller cubes, which is 1cm^3.
no.of cubes made=volume of cuboid/volume of cube i.e, (21*27*8)/(3*3*3) = 4536/27 = 168 cubes
It is (S/s)3 where S and s are the lengths of the sides of the larger and smaller cubes, respectively.
The volume of one sugar cube is 3*3*3 = 27 cubic cm. The volume of 30 cubes is 30*27 = 810 cubic centimetres. Incidentally, these are abnormally large cubes. Most that I have seen are at most 1 cm on each side.
A cubes volume is equal to the length of it's side^3. So if the side has length 2, the volume is 2*2*2 = 8.
To find the volume of the 3D shape made up of identical 1 cm^3 cubes, you would need to count the total number of cubes and multiply it by the volume of one cube. For example, if there are 100 cubes, the volume would be 100 cm^3.
The question is incomplete, but here goes: Each small cube has side r so volume of each small cube is r3 and so volume of 27 small cubes is 27r3 The large cube has side s so volume of the large cube is s3 The volume of the small cubes must sum to that of the big cube so s3 = 27r3 So s3/r3 = 27 and so s/r = cuberoot(27) = 3
There are 27 1x1cm cubes
You take the number of cubes on one side multiplayed by the number of sides. for example, in the standard rubik cube there are 9 cubes on each side and 6 sides. 9 times 6 is 54 so there are 54 cubes on a ribik cube
None, since there is no "this" cube.