12 cubes
A cubic box with a 1m edge has a volume of (1m^3 = 100cm \times 100cm \times 100cm = 1,000,000cm^3). Each cube with a 10cm edge has a volume of (10cm \times 10cm \times 10cm = 1,000cm^3). To find how many 10cm cubes can fit in the 1m cubic box, divide the volume of the box by the volume of one cube: (1,000,000cm^3 / 1,000cm^3 = 1,000). Therefore, 1,000 cubes of 10cm edge can fit in the cubic box.
72
The 3 foot square box contains 46,656 cubic inches. The 3 inch square cube has 27 cubic inches. The division of 46,656 by 27 yields 1728 3x3x3 cubes inside the larger one.
36 27 I mean
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.
3x3x8=72 cubes 63 Cubes
72
The 3 foot square box contains 46,656 cubic inches. The 3 inch square cube has 27 cubic inches. The division of 46,656 by 27 yields 1728 3x3x3 cubes inside the larger one.
36 27 I mean
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.
3 cubes x 3 rows = 9 cubes
The greatest possible number of 1 centimeter cubes that can fit in the box is equal to the volume of the box divided by the volume of a 1 centimeter cube. In this case, the box has a volume of 3 x 2 x 1 = 6 cubic centimeters, and each 1 centimeter cube has a volume of 1 cubic centimeter. Therefore, the greatest possible number of 1 centimeter cubes that can fit in the box is 6 divided by 1, which equals 6 cubes.
The sample space is the 6 cubes.
One 4'3' box will fit in a 48'3 box due to spatial restrictions in one dimension (3-foot).
45 cubes I believe
9
There are 27 1x1cm cubes