You can't tell the dimensions from the volume. There are an infinite number of different sets of dimensions that all have the same volume.
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.
The dimensions of a Kleenex box are length, width and height. The volume of the box is equivalent to length times width times height.
Three dimensions are required for volume
357 factors to [3 7 17] so possible configurations are {1 3 119} {1 7 51} {1 17 21} {3 7 17} ■
Without knowing the volume of the box, it is not possible to determine the height just based on the given dimensions of length and width. You would need either the volume of the box or the 3D shape of the box to calculate the height.
For a box, the dimensions the define a volume would be:Height, Width, and DepthFor a cylinder, the dimensions that define a volume would be:Height and Diameter
That depends on the dimensions of the shoe box, now doesn't it? It's the product of the three dimensions.
Your dimensions are for a square. You need one more dimension for a box.
You can't tell the dimensions from the volume. There are an infinite number of different sets of dimensions that all have the same volume.
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.
The dimensions of a Kleenex box are length, width and height. The volume of the box is equivalent to length times width times height.
Block being a box: Height * Length * Depth = Volume Giving the three dimensions available.
You do not have enough information to calculate all three box dimensions.
Three dimensions are required for volume
The answer depends on the shape and dimensions of the box!
You'll need to know its length, width and height then by multiplying the 3 dimensions the volume of the box can be found.