To find the dimensions of a box that contains twice as many cubes as a 2x3x4 box, we first calculate the volume of the smaller box: 2 x 3 x 4 = 24 cubic units. Since the larger box contains twice as many cubes, its volume must be 2 x 24 = 48 cubic units. To determine the dimensions of the larger box, we need to find three numbers that multiply together to give 48. One possible set of dimensions could be 4 x 4 x 3, as 4 x 4 x 3 = 48 cubic units.
Depends on the dimensions of the prism, and how large of cubes they are.
To determine the number of prisms that can be made with 18 cubes, we need to consider the different dimensions of the prism. A prism requires at least 3 faces to form a solid shape. With 18 cubes, we can form prisms with dimensions of 1x1x18, 1x2x9, or 1x3x6. Therefore, there are 3 possible prisms that can be made with 18 cubes.
To determine the number of different size cubes that can be made with 64 multilink cubes, we need to find all the factors of 64. The factors of 64 are 1, 2, 4, 8, 16, 32, and 64. These factors correspond to the possible dimensions of the cubes that can be formed using the multilink cubes. Therefore, there are 7 different size cubes that can be made with 64 multilink cubes.
488 cubes
The coins in the store's cash register total $12.50. The cash register contains only nickels, dimes, and quarters. There are twice as many dimes as nickels. There are also twice as many quarters as dimes. How many quarters are in the cash register?
8x2x2
Depends on the dimensions of the prism, and how large of cubes they are.
The answer depends on their relative dimensions.
A standard box of Rogers sugar cubes typically contains 60 cubes.
2 x 6 x 4 = 484 x 6 x 4 = 96
2x3x5 6x5 30x2 =60 cubes
As long as the cubes are 1x1x1 then any box with an equivalent volume would hold the same number of cubes. The volume of the 3x4x10 box is 120. So a box with the dimensions 1x1x120 would work just as well as a box with the dimensions 12x10x1 or 2x5x12.
384
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.
There are 6 white cubes and 3 green cubes. Algebraically, the equations are W = white cubes, G= green cubes W+G = 9 and W = 2G so substituting we have 2G + G = 9, and 3G = 9, so G=3 and W=6.
To determine the number of prisms that can be made with 18 cubes, we need to consider the different dimensions of the prism. A prism requires at least 3 faces to form a solid shape. With 18 cubes, we can form prisms with dimensions of 1x1x18, 1x2x9, or 1x3x6. Therefore, there are 3 possible prisms that can be made with 18 cubes.
Give us the dimensions of the prism.